Podcasts about dfx

Any donation is greatly appreciated! 47e6GvjL4in5Zy5vVHMb9PQtGXQAcFvWSCQn2fuwDYZoZRk3oFjefr51WBNDGG9EjF1YDavg7pwGDFSAVWC5K42CBcLLv5U OR DONATE HERE: https://www.monerotalk.live/donate TODAY'S SHOW: The episode features a conversation between Douglas Tuman and Seth from Cake Wallet discussing Monero's 11th birthday and recent developments in the Cake Wallet ecosystem. Seth discussed several major updates to Cake Wallet, including background sync for Monero which allows wallets to stay synchronized automatically, and the implementation of a unified 12-word seed phrase system for all supported cryptocurrencies. The conversation covered the upcoming FCMP (Full Chain Membership Proofs) implementation in Monero, with Seth estimating a timeline of 6-9 months for full deployment. Seth shared insights about Cake Wallet's integration with the Open Crypto Pay system, enabling seamless point-of-sale transactions in Switzerland. He also discussed the importance of maintaining a symbiotic relationship between Monero and other cryptocurrencies, particularly Bitcoin and Litecoin, as they serve as valuable on-ramps to Monero. The discussion concluded with Seth emphasizing the need for the Monero community to focus on improving user experience without compromising privacy, and to be more open to integration with existing cryptocurrency infrastructure like BTC Pay Server. TIMESTAMPS: (00:05:19) Discussion on integrating XMR Chat with Cake Wallet. (00:32:14) Upcoming native Tor integration for Monero wallets. (00:33:13) Zcash community's recent efforts to regain adoption. (00:41:32) Collaboration with DFX for POS solutions to integrate Monero into existing systems. (01:03:39) Background sync feature for Monero wallets. (01:11:50) Optimism about loosening regulations and supporting builders of privacy tech. (01:18:04) Importance of fighting for regulatory wins while staying true to cypherpunk ideals. (01:24:19) Onboarding new users to Monero and addressing initial friction points. (01:37:48) Final question: How to maintain Monero's lead in adoption and privacy. (01:44:50) Closing remarks LINKS: https://x.com/sethforprivacy Purchase Cafe & tip the farmers w/ XMR! https://gratuitas.org/ Purchase a plug & play Monero node at https://moneronodo.com SPONSORS: Cakewallet.com, the first open-source Monero wallet for iOS. You can even exchange between XMR, BTC, LTC & more in the app! Monero.com by Cake Wallet - ONLY Monero wallet (https://monero.com/) StealthEX, an instant exchange. Go to (https://stealthex.io) to instantly exchange between Monero and 450 plus assets, w/o having to create an account or register & with no limits. WEBSITE: https://www.monerotopia.com CONTACT: monerotalk@protonmail.com ODYSEE: https://odysee.com/@MoneroTalk:8 TWITTER: https://twitter.com/monerotalk FACEBOOK: https://www.facebook.com/MoneroTalk HOST: https://twitter.com/douglastuman INSTAGRAM: https://www.instagram.com/monerotalk TELEGRAM: https://t.me/monerotopia MATRIX: https://matrix.to/#/%23monerotopia%3Amonero.social MASTODON: @Monerotalk@mastodon.social MONERO.TOWN: https://monero.town/u/monerotalk

Shifting left in product design empowers teams to make informed decisions early in the development process, significantly impacting cost, manufacturability, and sustainability. Using a digital copilot, designers can access expert insights and real-time data, enhancing their ability to create more efficient and effective products, thereby reducing downstream risks and accelerating time to market.

In this episode, we delve into the often cited but widely misunderstood concept of 'Follow the Child's Lead'. Through our personal anecdotes, theoretical explorations, and practical insights, we wonder about the origins of this principle, its application across different disciplines and its pivotal role in treatment and intervention strategies. We unpack the nuances of following a child's lead versus following a child's need, and the profound impact of tuning into a child's developmental trajectory for effective treatment. Join us as we dive deep into how this principle shapes our approaches to therapy and beyond, providing actionable takeaways for professionals and parents alike. TIMESTAMPS: 00:00 Introduction: Exploring Treatment Principles 00:54 Deep Dive into 'Follow the Child's Lead' 02:16 Clinical Perspectives and Personal Stories 03:30 Understanding and Misunderstandings of Following the Child 05:57 Expanding on 'Follow the Child's Lead' with Clinical Insights 32:27 Exploring the Concept of Affordances in Treatment 53:29 Concluding Thoughts on Following the Child's Lead Both DFX and SEED are growing! Please message us if you are interested in joining either of our teams!

This episode is a detailed conversation about sensory modulation and its application in the field of occupational therapy. It examines various types of behaviours connected to sensory modulation and provides a thorough explanation of how to support individuals dealing with these behaviours. We discuss the intricacies of sensory modulation, particularly sensory over-responsiveness and under-responsiveness, sensory diets, and the impact of arousal and autonomic functions on sensory modulation. Key ideas include distinguishing between positive and negative valence responses, strategies for regulation and recovery, and the role of safety in sensory modulation. 00:00 Introduction and Updates on Training Programs01:14 Addressing Listener Questions: Sensory Modulation and Language02:12 Understanding Sensory Modulation and Behavioural Outcomes04:43 The Complexity of Sensory Modulation and Its Impact on Treatment08:48 The Importance of Differentiating Sensory Modulation Issues09:29 The Role of Neurological Structures in Sensory Modulation10:17 The Influence of Autonomic Functions on Sensory Modulation11:04 Understanding the Behavioural Outcomes of Sensory Modulation11:34 The Importance of Precise Differentiation in Sensory Concepts13:57 The Role of Sensory Modulation in Adaptive Function16:05 The Impact of Sensory Modulation on Treatment18:07 The Role of Safety in Sensory Modulation20:12 The Importance of Understanding Sensory Modulation in Treatment38:10 The Role of Sensory Diets in Treatment43:50 Conclusion: The Future of Sensory Modulation TreatmentFull Transcript Available on our website: https://www.spiritedconversationspodcast.com/ Don't forget you can take the Spirit and STEPPSI Course through DFX's learning journeys: https://dfxlearningjourneys.thinkific.com/ For other courses on offer through Seed, email us for more information:info@seedpaediatricservices.com Hosted on Acast. See acast.com/privacy for more information.

NOID-FM is a new vibes-based, late night weekly music series from SJ. 001: Agents Knocking On My Door Armed with exactly one month of experience on the decks, Dimitri plunges into the sonic dracularity of techno and attempts to locate the Soul in the Machine. [Track IDs] 90 Process, 999999999, Answer Code Request, Chris Liebing, Cynthia Spiering, Dax J, Decoder, Dimitri Poshlost, DFX, Holy Ghost, James Ruskin, Lindsey Herbert, Muslimgauze, Regis, Shay De Castro, Silent Servant (RIP), Temudo Hayes, TFT, Wata Igarashi, UFO95 For access to premium episodes, the full SJ back catalog, show notes, and the Grotto of Truth Discord, subscribe to the Al-Wara' Frequency at patreon.com/subliminaljihad.

Adrian and Renaud return for the last podcast of 2023, a bumper episode where they go through 13 quality strategies you can adopt to achieve consistent product quality. They're roughly split into pre-production and post-production strategies, so settle down and dive in here!   Show Sections 00:00 - Greetings and introduction. Pre-production 02:18 - 1. Due diligence and factory audits to ensure the supplier has the capabilities to reach your quality standards. 04:31 - 2. Define a quality standard. 08:35 - 3. Product design with quality in mind (DfX principles). 12:44 - 4. Feasibility study. 17:04 - 5. Specify all aspects of the product to avoid grey areas. 23:11 - 6. Implement a QA plan. 26:04 - 7. Use a manufacturer with a quality management system. 30:32 - 8. Quality (and compliance) testing. During and Post-production 33:32 - 9. Do IQC. 37:08 - 10. Conduct product inspections. 41:45 - 11. Process Controls. 45:13 - 12. Mistake-Proofing. 47:48 - 13. Traceability in the supply chain. 51:01 - Wrapping up.   Related content... How a Supplier's Quality can be Evaluated and Validated Background checks on suppliers Documenting Your Company's Quality Standard into the Details What Is A Quality Assurance Plan? The Design for X Approach: 12 Common Examples Why Skipping Incoming QC Is a Source of High Risks & Costs The Benefits of a Feasibility Study (during new product development) How To Do Product Reliability Testing? Various product inspection solutions we provide you with Process Control Plan Traceability in Manufacturing: Do your Chinese Suppliers Do it Right?   Get in touch with us Connect with us on LinkedIn Send us a tweet @sofeast Prefer Facebook? Check us out on FB Contact us via Sofeast's contact page Subscribe to our YouTube channel   Subscribe to the podcast  There are more episodes to come, so remember to subscribe! You can do so in your favorite podcast apps here and don't forget to give us a 5-star rating, please: Apple Podcasts Spotify Google Podcasts TuneIn Amazon Podcasts Deezer iHeartRADIO PlayerFM Listen Notes Podcast Addict Podchaser

Using DFR Tools Abstract Kirk and Fred discuss using Design for Reliability (DFR) for reliability development of a new product. Key Points Join Kirk and Fred as they discuss the use of DFx, being design for tests, design for manufacturing and design for reliability and the basics of good designs. Topics include: There are many […] The post SOR 913 Using DFR Tools appeared first on Accendo Reliability.

This is our first ever Guest Episode, and who better to talk to than Kim Barthel!!In this episode we continue to discuss interoception and making sense of this in treatment. We had a glitch with our video feed this episode so it's audio only, but we so very excited to finally share this. Our conversation covers many levels, from trying to understand and discern interoception vs neuroception, to understanding interoceptive processing with clinical practice examples and hopefully offers everyone new insights into how we can support individuals with different interoceptive needs.Kim is currently touring the world and we're very excited to say is headed to Australia to offer a number of unmissable live, in-person events. You can check out the full list of possible workshops here: https://www.kimbarthel.ca/event-calendar You can catch and connect with Kim online in a number of places:https://www.facebook.com/KimBarthelOTR/https://www.instagram.com/kimbarthel.ca/https://www.youtube.com/channel/UCK8PsNYNlakx1qx0BCqTg5w?view_as=subscriber Don't forget you can take the Spirit and STEPPSI Course through DFX's learning journeys: https://dfxlearningjourneys.thinkific.com/ For other courses on offer through Seed, follow our link or email us for more information:https://seedot.thinkific.com/courses/regulation-101info@seedpaediatricservices.com Hosted on Acast. See acast.com/privacy for more information.

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In this episode we discuss the relationship between interoceptive processing, conscious and subconscious as well as how that relates to the polyvagal theory. We explore how interoception changes in the different states of the nervous system, such as ventral vagal, sympathetic, and dorsal vagal states. We also discuss the role of interoception in emotions and feelings, and how it can impact social interactions. Our conversation begins our discussion around the importance of understanding interoceptive processing in clinical practice and hopefully offers insights into how we can support individuals with different interoceptive needs.Check out DFX's learning journeys to build your clinical reasoning skills with Tracy: https://dfxlearningjourneys.thinkific.com/ Curious about Regulation 101, follow our link or email us for more information:https://seedot.thinkific.com/courses/regulation-101 Timestamps00:00:00 - Introduction to the episode and announcement of available training00:03:23 - Discussion on the relationship between interoception and polyvagal theory00:06:19 - Importance of understanding the receptors in interoceptive processing00:08:13 - Interception extends beyond visceral organs to include other receptors00:09:19 - Interception involves both physical sensations and emotional feelings00:12:01 - Context of sensation and social touch00:14:27 - Receptors becoming bristly when not open to receive touch00:21:13 - Neuroceptive function of comfort and safety00:23:26 - Tuning into social cues and internal/external focus00:26:42 - Relationship between state and receptor activation00:28:20 - Stretch receptors and their role in processing interoceptive information00:30:07 - Electrical and chemical changes in interoceptive processing00:31:44 - The role of mismatch and posterior insula in emotion00:33:59 - Shift from subconscious to awareness-based processing00:38:44 - Impact of interoception on mobilization00:41:53 - Tracy discusses the interaction between polyvagal system and interoception00:43:08 - Tracy explains how states impact interoceptive cues and choices00:48:42 - Discussion on the role of attention in interoceptive awareness00:49:52 - The anterior insula's role in drawing attention to interoceptive signals00:50:59 - Individual differences in valence tipping and interoceptive awareness00:54:40 - Treatment considerations for interoceptive cues and shame triggersKey Takeaways:Interoception involves the processing of internal bodily sensations and emotions.Interoceptive processing is influenced by the state of the nervous system, such as the ventral vagal state, sympathetic state, and dorsal vagal state.The quality and function of interoceptive receptors can change depending on the state of the nervous system.Interoceptive cues can signal safety or threat, leading to different physiological and emotional responses.Attentional processes play a role in interoceptive processing, with the ability to shift attention between internal and external cues.Our Favourite Quote from this episode:"The valence-based function of interoception tells us if something is good or bad, and if we want more or less of it." – Tracy M Stackhouse. Hosted on Acast. See acast.com/privacy for more information.

As all of you are well aware, this show is all about reliability, specifically reliability of circuit assemblies. One challenge that seems to be persistent within our space is design for manufacturability or DFM. If you're a contract manufacturer, I have no doubt that you've had the experience of being asked to build a product that seems unbuildable. One example that rings true in my world was the introduction of bottom terminated components or BTC's. BTC's are marvelous components.Because all the lead terminations are below the part, they allow for highly dense component placement and highly miniaturized assemblies. They also presented a number of unique challenges in reflow, in many cases voiding, cleaning, and inspection. Like many other industries, we are not immune to the introduction of new technologies that may lack implementation knowledge. We then spend the next several years at technical conferences and symposiums learning us how to implement these new technologies. There are many acronyms in our industry that begin with DF… Design for testability, mechanical assembly, serviceability, reliability, and so many more. So many in fact, that there is a placeholder acronym for all of the various design fours refer to as DFx. Perhaps the holy grail of DFx is DFM, Design for Manufacturability as it encompasses so many aspects of assembly.To help us understand what exactly is DFM, I invited Andrew Williams to be my guest on this episode. Andrew Williams is the Engineering Manager for Electronics Manufacturing at PRIDE Industries. He has more than 30 years of experience in manufacturing and design and holds an SMT Process Engineer certification from SMTA and an IPC Certified Electronics Program Manager. Andrew is a guest lecturer at UC Davis and Cal State University Sacramento for Supply Chain Management, Operations, and TQM courses, and speaks frequently on DFM, DFS, and other DFX topics and today, he's my guest on the Reliability Matters Podcast.Andrew's Contact Information: Pride Industrieshttps://www.prideindustries.comandrew.williams@prideindustries.com

As all of you are well aware, Reliability Matters is all about reliability, specifically reliability of circuit assemblies. One challenge that seems to be persistent within our space is design for manufacturability, or DfM. If you're a contract manufacturer, no doubt you've had the experience of being asked to build a product that seems unbuildable. One example that rings true was the introduction of bottom terminated components or BTCs. BTC's are marvelous components. Because all the lead terminations are below the part, they permit highly dense component placement and highly miniaturized assemblies. They also presented a number of unique challenges in reflow, in many cases voiding, cleaning, and inspection. Like many other industries, we are not immune to the introduction of new technologies that may lack implementation knowledge. We then spend the next several years at technical conferences and symposiums learning us how to implement these new technologies. There are many acronyms in our industry that begin with Df…  Design for testability, mechanical assembly, serviceability, reliability, and so many more. So many in fact, that there is a placeholder acronym for all of the various design fours refer to as DFx. Perhaps the holy grail of DFx is DfM (design for manufacturability) as it encompasses so many aspects of assembly. Today Andrew Williams helps us understand what exactly DFM is. He is engineering manager for electronics manufacturing at PRIDE Industries. He has more than 30 years of experience in manufacturing and design and holds an SMT Process Engineer certification from SMTA and an IPC Certified Electronics Program Manager. He is a guest lecturer at UC Davis and Cal State University Sacramento for Supply Chain Management, Operations, and TQM courses, and speaks frequently on DfM, DfS, and other DfX topics.

This episode we discuss the importance of the somatosensory system in forming our sense of self through our relationships and how it shapes neurodevelopment. We explore how individuals who have not experienced secure attachment early in life may struggle with somatosensory amplification and somatization later on. We chat about the role of touch in creating a sense of safety and connection, and how sensory integrative processing can impact overall wellness. If you're curious about the need to balance and respect boundaries while providing positive somatosensory experiences for individuals with neurodiversity this episode is for you. Hopefully, like we did, you get a deeper appreciation of the power of touch in building empathy, shared experiences, and a sense of belonging.Check out DFX's learning journeys to build your clinical reasoning skills with Tracy --> https://dfxlearningjourneys.thinkific.com/ Timestamps00:00Importance of somatosensory system in attachment relationships and development02:40Impact of insecure attachment on somatosensory amplification and somatization07:00Neurodevelopment as a window into wellness and decline10:00Phantom limb experiences from missing relational experiences12:30Importance of sensory integrative processing and Dr. Ayres' work16:00Importance of touch in building empathy and connections19:00Enhancing somatosensory experiences in therapy23:00Balancing respect for individual boundaries and supporting adaptive function26:00Challenges of touch in vulnerable populations and the need for boundaries30:00Importance of psychoeducation and consent in touch interactions Connect with us: Instagram: https://www.instagram.com/spiritedconversations_ot/Facebook: https://www.facebook.com/spiritedconversationsOTYouTube: https://www.youtube.com/@spiritedconversations_OTWebsite: https://www.spiritedconversationspodcast.com/ Loved this episode and want an easy cost free way to support us? Subscribe to our youtube channel! Hosted on Acast. See acast.com/privacy for more information.

The DFX is part skateboard, part scooter, has four wheels, and its 3D steering makes for a total adrenaline rush.

Join us as we explore the interplay between feed forward and feedback in the somatosensory system. Learn how this impacts our ability to perform skilled movements and how our brain prepares for the next action. Find out how inhibition plays a crucial role in allowing us to venture forward in novel experiences. Check out DFX's learning journeys to build your clinicalreasoning skills with Tracy --> https://dfxlearningjourneys.thinkific.com/ Full transcription of our episode is available on ourwebsite. Timestamps:0:00:00 Introduction and revisiting the topic of praxis0:01:28 Difficulty of replicating human praxis in robots0:02:48 Somatosensory basis of dyspraxia0:05:01 Importance of enhancing somatosensation, movement, and vision0:05:41 The dynamic and solidified body map of the homunculus0:06:25 Purpose of somatosensory processing and sensory integrative processing0:07:49 Treating the whole, not just practicing the end products0:08:12 Understanding the homunculus and its dynamic nature0:10:04 Feed forward and feedback happening simultaneously0:11:35 Interplay between feed forward and feedback happening simultaneously in the brain0:12:22 Peripheral receptors learning in the neural network0:13:03 Neurodevelopmental changes in the peripheral and central nervous system0:13:45 Preparing the body for the next activity0:14:44 Sensitization of peripheral receptors in response to unexpected events0:16:12 Pre-emptive preparation of the brain in eye movement control0:17:19 Interplay between somatosensory, vestibular, and visual systems in response to uneven surfaces0:17:50 Importance of somatosensation as a perceptual layer that supports skilfulness0:18:58 The interplay between modulation and discrimination processing in novel experiences0:20:40 Treating the modulation issue to clear the slate for discrimination to become relevant0:21:57 Co-regulation through touch in discrimination processing0:22:25 The spreading activation of the homunculus enriching the body map0:23:10 The nervous system drawing somatosensory information to create inhibition and engagement0:23:41 The somatosensory system as the primary inhibitory system0:24:26 The whole process being somatosensory dependent0:24:42 The valence and tipping in the somatosensory system0:25:21 The role of the social engagement secretary in somatosensory modulation0:27:01 Co-regulation and the importance of a partner in somatosensory experiences0:29:20 The impact of not meeting a child's somatosensory needs on adaptation and efficiency0:29:54 The power of OT observations in shifting perceptions and supporting children's sensory needs0:34:20 The importance of separating modulation from discrimination in clinical reasoning for effective intervention0:34:54 The interplay between modulation, discrimination, cognition, and executive function in treatment. Connect with us: Instagram: https://www.instagram.com/spiritedconversations_ot/Facebook: https://www.facebook.com/spiritedconversationsOTYouTube: https://www.youtube.com/@spiritedconversations_OTWebsite: https://www.spiritedconversationspodcast.com/ Loved this episode and want an easy cost free way to support us?Subscribe to our youtube channel! Hosted on Acast. See acast.com/privacy for more information.

The DFX is part skateboard, part scooter, has four wheels, and its 3D steering makes for a total adrenaline rush.

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If you've ever wondered what somatosensory processing and breaking down what that really is and how we can observe it in our sessions then this episode is certainly for you!-Check out DFX's learning journeys to build your clinical reasoning skills with Tracy --> https://dfxlearningjourneys.thinkific.com/Full transcription of our episode is available on our website. Timestamps:00:03:21 - Exploring Modulation Challenges in Somatosensory Processing00:05:27 - Discussion of Somatosensory Receptors and Interoception00:07:26 - Discussion on the Vestibular Labyrinth as a Proprioceptor00:10:08 - Conversation on Somatosensation and Perception-Action Processing00:11:46 - Exploring the Role of Somatosensory Modulation in Skill-Based Actions00:14:41 - Discussion of Vestibular Processing in Relation to proprioceptive modulation00:19:45 - Exploring the Effects of Phasic and Tonic Movement on Proprioceptive Input00:21:59 - Exploring the Perception-Action Cycle: How Proprioception and Phasic Receptors Impact Motor Action00:24:00 - Modulation of Tactile, Proprioceptive, and Vestibular Inputs00:25:41- Discussion on Tactile and Proprioceptive Processing in Clinical Observations00:31:07 - Exploring the Role of Tactile and Proprioceptive Systems in Motor Functioning00:32:58 - Exploring the Role of Proprioception and Affordances in Tactile Development00:36:28 - Discussion on Motor Skill Development in Infants00:40:57 - Discussion on Sensory Motor Development in Toddlers00:42:04 - Discussion of Praxis Categories for Treatment Planning00:47:44 - Discussion of Praxis Difficulties and Bilateral Motor CoordinationOther episodes you'll enjoy:4. Sensory Discrimination for Skilfulnesshttps://youtu.be/X3xMJbZkbyM Connect with us: Instagram: https://www.instagram.com/spiritedconversations_ot/Facebook: https://www.facebook.com/spiritedconversationsOTYouTube: https://www.youtube.com/@spiritedconversations_OTWebsite: https://www.spiritedconversationspodcast.com/Loved this episode and want an easy cost free way to support us? Subscribe to our youtube channel! Hosted on Acast. See acast.com/privacy for more information.

Why are some manufacturing businesses a hot mess, while others are a great place to work as you provide exciting value to the market?A business is a living organism, and as such, understanding what makes them healthy and what makes them sick is instrumental to success. Here are seven levers that apply within all manufacturers; each is addressed as part of the operations strategy, which is in place to execute the business strategy. The business is impacted by each, both individually and collectively.The first is Human Resources. What is the strategy for how many, what backgrounds, what key characteristics? An effective HR strategy is not reactive, but rather reflects the quality of the organization you are building.A second lever is organizational structure and role clarity. While we're all familiar with the one box at the top, with a few under it and a handful under each of those, going on down, that is hardly the only potential structure. Even if that is the best one for you right now, that structure unsupported by clarity for each role will fail you. Titles mean different things to different people; providing common understanding of expectations of specific roles and among roles cannot be overlooked.A third lever is production planning and control; this is the near-term management of inventories and resource utilization, and drives costs, time, and performance.Sourcing is another impactful lever in your manufacturing business. The decisions to outsource or insource, off-shore or near-shore, leverage supplier expertise or not require strategic guidance.Both process technology and facilities are structural levers that are often difficult to change, impact cash availability, and can add costs and time that are difficult to assess.Product design is the 7th lever addressed today. Product design was once a matter of meeting customer specs. The long term impact of that design has been recognized, resulting in design for manufacturing, design for service, design for re-use, and additional DFX.Those manufacturers that are a hot mess don't manage or strategize these levers well; they may not even recognized their existence beyond daily headaches.Outstanding high quality manufacturers think strategically about each of these levers, never considers the position of any of them optimal forever, understands that each has an individual impact, and recognizes that the collective impact of mastering each of these creates the foundation of a high quality business.No manufacturing business can afford to overlook the consequences of the position of these seven decisive levers.

Have a listen as we reflect with Tracy on the 2022 PVI Gathering & Unyte Safe and Sound Summit. We discuss many things Polyvagal (big thanks to Dr. Stephen Porges!). Our journey takes us most deeply into co-regulation and some new ways of integrating this concept with Tracy's insights!The Summit is currently still available for online access (live recordings). So to anticipate that for all those who want to know you can find it here:https://web.cvent.com/event/836a907a-9b07-4503-8069-934a100e49db/summaryFull disclosure we do not get any kick backs from directing you to the site. SEED and DFX are both looking for Occupational Therapists to join our teams! Get in touch -> SEEDhttps://www.instagram.com/seedpaediatric/ https://www.facebook.com/seedpaediatricserviceshttps://www.seedpaediatricservices.comDFXhttps://developmentalfx.org/https://www.instagram.com/developmentalfx/https://www.facebook.com/developmentalfx/?fref=tsShow notes on our website (coming soon):spiritedconversationspodcast.com Want to do the SpIRiT Course? You can find it here:https://dfxlearningjourneys.thinkific.com

Last week Thursday the first Future Swap was executed according to DFIP. What is the dToken Premium doing now? This and more in a new episode of the News Show. The ticker voting is over and the question is whether tech stocks will win again, even tough we listed new tickers. This and more in a new episode of the News Show. DFX e-sports sponsor: https://www.youtube.com/watch?v=WrE6elut3xI Jellywallet: http://jellywallet.io DefiChain NFTs: https://www.youtube.com/watch?v=9rjMnASO64I DefiChain Einstein: https://defichain-einstein.com/ dStocks Quickcheck: https://dstocks-defichain.web.app/ DefiChain Bridge: https://defichain-bridge.com/ ———— The #DeFiChain is enabling #DeFi (Decentralized Finance) on #Bitcoin: https://defichain.com ► Subscribe to our YouTube channel if you don't want to miss out on any key updates: https://www.youtube.com/c/DeFiChain/featured?sub_confirmation=1 ► You can buy/trade DFI on any of these platforms: https://coinmarketcap.com/currencies/defichain/ ► You can stake DFI on https://cakedefi.com ____________ ► English Videos around this topic: https://www.youtube.com/c/DeFiChain ► German Videos around this topic: https://www.youtube.com/c/DeFiChainDE ► Italian Videos around this topic: https://www.youtube.com/channel/UCWtcqScbHlbzKP4TIUi5d9A ___________ Podcast: The DeFiChain Podcast Anchor: https://anchor.fm/the-defichain-podcast Spotify: https://open.spotify.com/show/4Vlp7oR4O9KD6TpSMhcPEr PocketCasts: https://pca.st/weovowl8 RadioPublic: https://radiopublic.com/the-defichain-podcast-8jVzVj Breaker: https://www.breaker.audio/the-defichain-podcast Google Podcasts app: https://www.google.com/podcasts?feed=aHR0cHM6Ly9hbmNob3IuZm0vcy82YWRiZDVjMC9wb2RjYXN0L3Jzcw== Apple Podcast: https://podcasts.apple.com/de/podcast/the-defichain-podcast/id1586147124 ——————— Follow us on Social Media: ► Twitter: https://twitter.com/defichain ► YouTube: https://youtube.com/DeFiChain ► Reddit: https://reddit.com/r/defiblockchain ► Telegram: https://t.me/defiblockchain ► LinkedIn: https://linkedin.com/in/defichain ► Facebook: https://facebook.com/defichain.official ► Instagram: https://instagram.com/defichain.official

Chris Montalbano, CEO of MIDI walks us through the components of DFX (Design for Excellence). Listen in as Chris "unpacks" each of the DFX components in detail referencing MIDI's methodical yet prudent development approach. Both the functional engineering constraints and the essential business constraints as related to production and costing are considered simultaneously in this development approach.

Marvin Groeb (@marvgro) returns to DFX! Eddie and Marvin catch up on what Marvin has been doing since he was last on the show. Winston and Chris have the day off but will be back for the next episode.    Available now on Apple Podcasts (link in bio), Spotify and Google Podcasts. Or stream directly from https://dfxpodcast.efk3.com   Links Marvin Groeb (@marvgro on IG) - https://www.instagram.com/marvgro/

The subject of addressing supply chain issues is quite an important and relevant topic for medical device manufacturers to integrate into their development strategies given the material and component shortages in today's economic environment. The first episode in the new MIDI series, Value of Concurrent Engineering with Inclusion of DFX in MedDevice, Operationalized under ISO-13485, addresses how is it related to an advanced DFX strategy. Chris Montalbano, CEO of MIDI, helps to define DFX. Additionally, Chris talks about how to operationalize DFX early in the development cycle under a Concurrent Engineering approach as well as what this approach entails and how it is different from alternative approaches.

In this episode... Sofeast's CEO Renaud Anjoran is joined once again by our head of New Product Development, Andrew Amirnovin, and this time they're giving an overview of 12 things that a company can optimize for when designing and developing a new product. These include 'Design for Manufacturing,' Design for Assembly,' and many more. So, what are the DfX principles, what are their benefits if adopted by designers, and which could be right for you to focus on? Keep listening...   Show Sections 00:00 - Greetings and introducing the topic of DfX. 02:30 - 1. Design for Short Development & Time to Market. 05:16 - 2. Design for Crowdfunding. 08:13 - 3. Design for Manufacturing (DFM). 10:29 - 4. Design for Assembly (DFA). 13:35 - DFM & DFA tips for product designers to keep in mind. 19:19 - The rise of modularization. 25:04 - 5. Design for Quality & 6. Design for Testing 32:37 - 7. Design for Packaging. 35:45 - 8. Design for Reliability  45:12 - 9. Design for Maintainability. 49:15 - 10. Design for Ease of use/Ergonomics. 49:35 - 11. Design for Fewer SKUs. 50:20 - 12. Design for Sustainability. 51:02 - Which DfX principles are crucial? 51:55 - How to implement DfX? 53:58 - Wrapping up.   Related content... The Design for X Approach: 12 Common Examples Design for Distribution (DFD) Design to Cost (DTC) Design for Manufacturing (DFM) Design for Quality (DFQ) Design For Sustainability Design For Crowdfunding (Kickstarter & Indiegogo) Design For Assembly (DFA) Design for Distribution: What Hardware Startups Need To Know   Get in touch with us Connect with us on LinkedIn Send us a tweet @sofeast Prefer Facebook? Check us out on FB Contact us via Sofeast's contact page Subscribe to our YouTube channel   Subscribe to the podcast  There are more episodes to come, so remember to subscribe! You can do so in your favorite podcast apps here and don't forget to give us a 5-star rating, please: Apple Podcasts Spotify Stitcher Google Podcasts TuneIn Amazon Podcasts Deezer iHeartRADIO PlayerFM Listen Notes Podcast Addict

Beim Liquidity Mining sind derzeit bei der DeFiChain die höchsten Rewards zu holen. Hier erfährst du, ob Liquidity Mining bei Cake, DFX oder der DeFiChain Light Wallet sinnvoller ist.   - ZUM VIDEO: https://youtu.be/ilEvLTi4wfE

Die meisten Leute kaufen DFI bei Cake, DFX und Bittrex ein. Hier lernst du, wo du DFI am günstigsten kaufen kannst und welche Vor- und Nachteile die einzelnen Plattformen haben.   - ZUM VIDEO: https://youtu.be/yQ-Ao9w85G0

Fran Strajnar is the co-founder of Techemynt, the issuer of the NZDS, a New Zealand Dollar (NZD) Stable Coin backed 1:1 with physical New Zealand Dollars in a cash and cash equivalent treasury managed by a New Zealand registered financial services provider. Guest: Fran Strajnar  Why you should listen: NZDS was launched in March 2021 by Techemynt, a registered New Zealand Financial Services provider, using the FiatToken framework developed by Centre that is the basis for USD-Coin (USDC).  New Zealand's currency is a leader in adaptability, resilience, and market trustworthiness. NZD is the 10th most traded currency globally. The NZDS stable coin offers cryptocurrency users the stability and utility of the New Zealand Dollar with the versatility of a cryptocurrency. The NZDS can be used through a variety of Ethereum wallets including Metamask. Once added to an Ethereum wallet, the NZDS token can be used for making payments and interacting with a variety of applications on the Ethereum blockchain network. An example of a decentralized application where NZDS can be used is on DFX, a stablecoin exchange, and finance platform.  High yield is available for liquidity providers. The NZDS/USDC pool on the Automated Market Maker-based decentralized exchange, DFX, offers liquidity providers APYs of 10-25%. This is impressive given the average rate for 1-5 year term deposits in New Zealand is ~3%. The pool currently has US$4.2 million worth of assets locked into it by the DFX community. Supporting links: Techemynt Andy on Twitter  Brave New Coin on Twitter Brave New Coin If you enjoyed the show please subscribe to the Crypto Conversation and give us a 5-star rating and a positive review in whatever podcast app you are using.

In diesem Schritt-für-Schritt-Tutorial erfährst du, wie du mithilfe von DFX ganz automatisch per Sparplan in die DeFiChain, Bitcoin und Ethereum investieren kannst. Zudem erhältst du zusätzliche Tipps rund um die Nutzung der App.   ▶ KRYPTO-RABATTE: https://kevinsoell.com/rabatte ❤️ ▶ DISCLAIMER: https://kevinsoell.com/impressum ⚠️

What a crazy start of DefiChain into the year 2022. After the Christmas break the News Show is back and covers the past events like the dBTC bug exploit, the short term hardfork and the general cryptocrash. This and more updates in a new episode of the DefiChain News Show. Links mentioned community projects: Dobby: https://defichain-dobby.com/ DefiChain-Income: https://www.defichain-income.com/ DFX: https://dfx.swiss/ ———— The #DeFiChain is enabling #DeFi (Decentralized Finance) on #Bitcoin: https://defichain.com ► Subscribe to our YouTube channel if you don't want to miss out on any key updates: https://www.youtube.com/c/DeFiChain/featured?sub_confirmation=1 ► You can buy/trade DFI on any of these platforms: https://coinmarketcap.com/currencies/defichain/ ► You can stake DFI on https://cakedefi.com ____________ ► English Videos around this topic: https://www.youtube.com/c/DeFiChain ► German Videos around this topic: https://www.youtube.com/c/DeFiChainDE ► Italian Videos around this topic: https://www.youtube.com/channel/UCWtcqScbHlbzKP4TIUi5d9A ___________ Podcast: The DeFiChain Podcast Anchor: https://anchor.fm/the-defichain-podcast Spotify: https://open.spotify.com/show/4Vlp7oR4O9KD6TpSMhcPEr PocketCasts: https://pca.st/weovowl8 RadioPublic: https://radiopublic.com/the-defichain-podcast-8jVzVj Breaker: https://www.breaker.audio/the-defichain-podcast Google Podcasts app: https://www.google.com/podcasts?feed=aHR0cHM6Ly9hbmNob3IuZm0vcy82YWRiZDVjMC9wb2RjYXN0L3Jzcw== Apple Podcast: https://podcasts.apple.com/de/podcast/the-defichain-podcast/id1586147124 ——————— Follow us on Social Media: ► Twitter: https://twitter.com/defichain ► YouTube: https://youtube.com/DeFiChain ► Reddit: https://reddit.com/r/defiblockchain ► Telegram: https://t.me/defiblockchain ► LinkedIn: https://linkedin.com/in/defichain ► Facebook: https://facebook.com/defichain.official ► Instagram: https://instagram.com/defichain.official

Episode 80: Cheryl Tulkoff & Greg Caswell's Book “Design for Excellence in Electronics Manufacturing”.   My guests Cheryl Tulkoff and Greg Caswell discuss their new book "Design for Excellence in Electronics Manufacturing" (published by Wiley and available on Amazon, Barnes & Noble, and Wiley). An authoritative guide to optimizing design for manufacturability and reliability from a team of experts Design for Excellence in Electronics Manufacturing is a comprehensive, state-of-the-art book that covers design and reliability of electronics. The authors—noted experts on the topic—explain how using the DfX concepts of design for reliability, design for manufacturability, design for environment, design for testability, and more, reduce research and development costs and decrease time to market and allow companies to confidently issue warranty coverage. By employing the concepts outlined in Design for Excellence in Electronics Manufacturing, engineers and managers can increase customer satisfaction, market share, and long-term profits. In addition, the authors describe the best practices regarding product design and show how the practices can be adapted for different manufacturing processes, suppliers, use environments, and reliability expectations. This important book contains a comprehensive review of the design and reliability of electronics covers a range of topics: establishing a reliability program, design for the use environment, design for manufacturability, and more. Includes technical information on electronic packaging, discrete components, and assembly processes shows how aspects of electronics can fail under different environmental stresses. Written for reliability engineers, electronics engineers, design engineers, component engineers, and others, Design for Excellence in Electronics Manufacturing is a comprehensive book that reveals how to get product design right the first time.   Cheryl Tulkoff may be reached here: cheryl.tulkoff@ni.com   Greg Caswell may be reached here: greg.caswell@ansys.com

My guests Cheryl Tulkoff (She/Her) and Greg Caswell discuss their new book "Design for Excellence in Electronics Manufacturing" (published by Wiley and available on Amazon, Barnes & Noble, and Wiley).Cheryl and Greg are giving away a free copy of their new book (a $130 value)! Listen or watch this episode to learn how to win their informative book.Book details:DESIGN FOR EXCELLENCE IN ELECTRONICS MANUFACTURINGAn authoritative guide to optimizing design for manufacturability and reliability from a team of experts Design for Excellence in Electronics Manufacturing is a comprehensive, state-of-the-art book that covers design and reliability of electronics. The authors—noted experts on the topic—explain how using the DfX concepts of design for reliability, design for manufacturability, design for environment, design for testability, and more, reduce research and development costs and decrease time to market and allow companies to confidently issue warranty coverage. By employing the concepts outlined in Design for Excellence in Electronics Manufacturing, engineers and managers can increase customer satisfaction, market share, and long-term profits. In addition, the authors describe the best practices regarding product design and show how the practices can be adapted for different manufacturing processes, suppliers, use environments, and reliability expectations. This important book contains a comprehensive review of the design and reliability of electronics covers a range of topics: establishing a reliability program, design for the use environment, design for manufacturability, and more. Includes technical information on electronic packaging, discrete components, and assembly processes shows how aspects of electronics can fail under different environmental stresses. Written for reliability engineers, electronics engineers, design engineers, component engineers, and others, Design for Excellence in Electronics Manufacturing is a comprehensive book that reveals how to get product design right the first time.

Winston and Chris talk with DFX guest Greg Paulsen, Director of Application Engineering at Xometry. Greg talks about his journey into manufacturing and what it means to deliver manufacturing as a service including additive and CNC-based technologies. Ed was unavailable for this episode but will be back for DFX71.   Available now on Apple Podcasts (link in bio), Spotify and Google Podcasts. Or stream directly from https://dfxpodcast.efk3.com Links Check out Xometry's 3D printing service and CNC machining service today (links below) Xometry 3D Printing Service - https://www.xometry.com/capabilities/3d-printing-service Xometry CNC Machining Service - https://www.xometry.com/capabilities/cnc-machining-service/

On Today's episode of DeFi Decoded, Andrew is joined by Kevin Zhang. Kevin is the co-Founder of PayTrie and DFX Finance. PayTrie is one of Canada's largest fiat on-boarding ramps, helping Canadians buy crypto stablecoins with their bank account. DFX Finance is the leading decentralized foreign exchange protocol that is optimized for stablecoins. DFX is the category leader in the rapidly emerging DeFi FX sub-sector, garnering over $15m in assets to the protocol and attracting millions of dollars in trading volume. In this episode, Andrew and Kevin do a deep-dive into both PayTrie and DFX and how they are complementary to each other. They discuss emerging trends in stablecoins, looking into market flows and where investor demand is. Finally, we get Kevin's views on where DeFi is today, and how he views the space evolving over time.

DFX is an Ethereum-based decentralized exchange protocol with a dynamically tuned bonding curve optimized for fiat-backed stablecoins using real-world FX price feeds. Mainstream adoption of Web 3.0 requires assets that are protected from price volatility. By focusing on fiat-backed stablecoins on the Ethereum blockchain, DFX leverages the existing defi ecosystem to bootstrap humanity's next-generation foreign exchange. Why you should listen: DFX is a decentralized foreign exchange protocol optimized for stablecoins. In building the protocol, DFX will bring liquidity and volume to fiat-backed stablecoins globally. The next generation of global finance cannot rely solely on USD-pegged stablecoins. A decentralized protocol where users can efficiently exchange stablecoins pegged to various foreign currencies is not only important but necessary. DFX has added the NZDs, the New Zealand Dollar Stable Coin to the protocol. NZDs is a New Zealand Dollar (NZD) Stable Coin backed 1:1 with physical New Zealand Dollars in a cash and cash equivalent treasury managed by a New Zealand registered financial services provider. New Zealand's currency is a leader in adaptability, resilience, and market trustworthiness. NZD is the 10th most traded currency globally. The NZD stable coin will offer cryptocurrency users the stability and utility of the New Zealand Dollar with the versatility of a cryptocurrency. The NZDs is issued by Techemynt. Supporting links: DFX NZD Stablecoin Techemynt Castle Island Stablecoin paper Andy on Twitter  Brave New Coin on Twitter Brave New Coin If you enjoyed the show please subscribe to the Crypto Conversation and give us a 5-star rating and a positive review in whatever podcast app you are using.

Recorded onsite, this episode of Big Blend Radio features Freddie Gonzalez, general manager of Galaxy Theatres Tulare, as well as Donnette Silva Carter, President / CEO of Tulare Chamber of Commerce. Freddie discusses the luxury movie experience movie goers enjoy at Galaxy Theatres Tulare, as well as the theatre's new Dolby Atmos® sound technology. Dolby Atmos transports you into the movie with breathtaking, 360° sound that fills the theatre and flows all around you. Dolby Atmos delivers a dramatic, immersive experience to Galaxy's DFX auditoriums. Filmmakers now have amazing new capabilities to tell their stories to achieve the greatest expressive impact. Sound comes from all directions, including overhead, to fill the movie theatre with astonishing clarity, richness, detail, and depth. Galaxy Theatres Tulare is located in the Tulare Outlets in Tulare, California, a gateway destination for those traveling to and from Yosemite, Kings Canyon, and Sequoia National Parks. More: https://www.galaxytheatres.com/movie-theater/tulare

Recorded onsite, this episode of Big Blend Radio features Freddie Gonzalez, general manager of Galaxy Theatres Tulare, as well as Donnette Silva Carter, President / CEO of Tulare Chamber of Commerce. Freddie discusses the luxury movie experience movie goers enjoy at Galaxy Theatres Tulare, as well as the theatre's new Dolby Atmos® sound technology.  Dolby Atmos transports you into the movie with breathtaking, 360° sound that fills the theatre and flows all around you. Dolby Atmos delivers a dramatic, immersive experience to Galaxy's DFX auditoriums. Filmmakers now have amazing new capabilities to tell their stories to achieve the greatest expressive impact. Sound comes from all directions, including overhead, to fill the movie theatre with astonishing clarity, richness, detail, and depth. Galaxy Theatres Tulare is located in the Tulare Outlets in Tulare, California, a gateway destination for those traveling to and from Yosemite, Kings Canyon, and Sequoia National Parks. More: https://www.galaxytheatres.com/movie-theater/tulare

Hey if you have any suggestions or want some good and bad opinions about what you should buy next email us at thebscarguys@gmail.com Brown cars for 31K Bill's Picks No price but my dream build for our 96LC. https://www.overlandkitted.com/four-wheel-drive/2020/2/3/last-line-of-defense-fzj80-landcruiser Top pick: https://bringatrailer.com/listing/1983-toyota-land-cruiser-fj60-28/ Everyone needs a brown car: https://bringatrailer.com/listing/1983-mercedes-benz-300td-turbo-23/ Most likely winner: https://www.cars.com/vehicledetail/detail/836898624/overview/ Budget be darned. I want this truck: https://www.ramtrucks.com/bmo.html?sid=1037056&KWNM=ram&KWID=43700041655761585&TR=1&channel=paidsearch&gclsrc=aw.ds&ds_rl=1267141&ds_rl=1266910&ds_rl=1267895&gclid=Cj0KCQiApY6BBhCsARIsAOI_GjYdnzZwIlc2KGimcGLWQSFsvpM0oWwQMYe1VYb5SqQmRskUyQTDa3YaAt6tEALw_wcB#/build/exterior/27205/CUT202014DJ7L91A/2TA/APA,PUW,X9,ESA,DFX,DMF,Z7M,TW2,WFR,V9,MWH,A6B,ACE,JKV,XAN,XHC,LNC,LPL,XB9,XEA,CLF,GFA,XMF,UAM,2ZA Stan's Picks Tesla Model S 2014 Tesla Model S Performance For Sale In Raleigh | Cars.com 2012 Porsche Panamera 4 For Sale In Snellville | Cars.com 1977 Oldsmobile Cutlass Supreme Brougham | eBay BWM X3 Used 2017 BMW X3 in Las Vegas, Nevada | CarMax Topaz Brown M90 Swap: 1977 BMW 528i | Bring a Trailer Bill's Bown Car 1971 Volvo 1800E 4-Speed w/Overdrive for sale on BaT Auctions - ending February 26 (Lot #43,794) | Bring a Trailer 1984 Toyota Land Cruiser FJ60 for sale on BaT Auctions - closed on February 21, 2019 (Lot #16,539) | Bring a Trailer --- This episode is sponsored by · Anchor: The easiest way to make a podcast. https://anchor.fm/app --- Send in a voice message: https://anchor.fm/thebscarguys/message Support this podcast: https://anchor.fm/thebscarguys/support

This week we discuss what we think happen to BMW. What they are getting wrong and why. What they are getting right. Hey if you have any suggestions or want some good and bad opinions about what you should buy next email us at thebscarguys@gmail.com Brown cars for 31K Bill's Picks No price but my dream build for our 96LC. https://www.overlandkitted.com/four-wheel-drive/2020/2/3/last-line-of-defense-fzj80-landcruiser Top pick: https://bringatrailer.com/listing/1983-toyota-land-cruiser-fj60-28/ Everyone needs a brown car: https://bringatrailer.com/listing/1983-mercedes-benz-300td-turbo-23/ Most likely winner: https://www.cars.com/vehicledetail/detail/836898624/overview/ Budget be darned. I want this truck: https://www.ramtrucks.com/bmo.html?sid=1037056&KWNM=ram&KWID=43700041655761585&TR=1&channel=paidsearch&gclsrc=aw.ds&ds_rl=1267141&ds_rl=1266910&ds_rl=1267895&gclid=Cj0KCQiApY6BBhCsARIsAOI_GjYdnzZwIlc2KGimcGLWQSFsvpM0oWwQMYe1VYb5SqQmRskUyQTDa3YaAt6tEALw_wcB#/build/exterior/27205/CUT202014DJ7L91A/2TA/APA,PUW,X9,ESA,DFX,DMF,Z7M,TW2,WFR,V9,MWH,A6B,ACE,JKV,XAN,XHC,LNC,LPL,XB9,XEA,CLF,GFA,XMF,UAM,2ZA Stan's Picks Tesla Model S 2014 Tesla Model S Performance For Sale In Raleigh | Cars.com 2012 Porsche Panamera 4 For Sale In Snellville | Cars.com 1977 Oldsmobile Cutlass Supreme Brougham | eBay BWM X3 Used 2017 BMW X3 in Las Vegas, Nevada | CarMax Topaz Brown M90 Swap: 1977 BMW 528i | Bring a Trailer Bill's Bown Car 1971 Volvo 1800E 4-Speed w/Overdrive for sale on BaT Auctions - ending February 26 (Lot #43,794) | Bring a Trailer 1984 Toyota Land Cruiser FJ60 for sale on BaT Auctions - closed on February 21, 2019 (Lot #16,539) | Bring a Trailer --- This episode is sponsored by · Anchor: The easiest way to make a podcast. https://anchor.fm/app --- Send in a voice message: https://anchor.fm/thebscarguys/message Support this podcast: https://anchor.fm/thebscarguys/support

01. Darksidevinyl & Cadillac Express – Macedonia (Sean & Dee Remix)02. Dave Sinner – Survival03. Anthony Castaldo – Take My Body04. Monika Kruse – Rising Heart05. Reform – Stance06. Alberto Ruiz & Xenia (Ua) – Clouds Of Dreams07. Deas – Target08. Wehbba – Basic Pleasure (Original Mix)09. Thomas Schumacher – Core10. Sam Paganini – Kubrix11. … DFx pres. VideoCast 004 weiterlesen →

In our eighth episode, host Dave Finch discusses how to get from prototype to market, zeroing in on the process of DFM or, more accurately DFX, which stands for "Design for" ...well, anything that comes after the design. Why does cost go up after a product's been released for a while? When should you consider certifcation in the design process? How can young engineers hope to familiarize themselves with DFM if they never even designed a full board in school? Learn the many good reasons engineers should know their board manufacturers. Consider how EMS (electronic manufacturing services) companies have evolved from mere contractors into design partners. And hear some truly unfortunate stories about what happens when you fail to plan beyond the circuit design stage appropriately.

Do you want to know what it's like to supervise a department that produces VFX for some of the biggest TV shows in the world? Do you want to know what it takes to be a successful VFX artist?  Well, you'll want to stick around to end of my interview with VFX supervisor and Co-Head of 3D at DNEGTV Andy Hargreaves.  DNEGTV is the TV branch of the Oscar award-winning DNEG, who produce computer generated visual effects for some of the biggest movies in the world, such as Avengers End Game, Tenet, Ghostbusters: Afterlife, the Fast & The Furious movie F9: The Fast Saga, the Bond movie No Time to Die and many, many more.  Andrew started out in the early 2000's working on movies such as Lara Croft: Tomb Raider and The League of Extra Ordinary Men. He now heads up the London team at DNEGTV.  DNEGTV have produced content for shows such as Chernobyl, Cursed, Star Trek: Picard and West World to name but a few and one of Andrew's latest projects was working as the DFX supervisor for two years on Dark Crystal: Age of Resistance for Netflix.  In this interview, we talk at length about his life as a VFX supervisor, how he got his first break, some of the projects he's worked on and of course there's plenty of advice for those who are looking to get into the VFX industry.  Find out more here: https://www.dneg.com/tv-vfx/

DFX celebrates our 50th episode with special guest Ed Rees from Saunders Machine Works. Ed talks about his luthier projects which sparked his initial interest in CNC machines. We chat about the Neo, Tormach, Haas and chickens.

Tony Robinson chats with Oscar winning DFX designer, artist and character actor Doug Drexler! Doug has worked on Star Trek: The Next Generation, Star Trek: Deep Space Nine, Star Trek: Enterprise and a number of the Star Trek movies.United Federation Of Podcasts is brought you to by listeners like you. Special thanks to these patrons on Patreon who's generous contributions help produce the podcast! Bill SmithTom ElliotYou can become a patron here: https://www.patreon.com/ufpearth

The DFX team recaps the year and talks about what they want to accomplish in 2020 in this last episode of 2019. And of course there are Johnny 5 updates. Happy New Year to all. Links Tutorial Series: Understanding Generative Design in Fusion 360 - https://f360ap.autodesk.com/courses/understanding-generative-design https://dfxpodcast.efk3.com

01. Leo Lippolis – Interference (Original Mix)02. Blank & Jones – Three/C (Extended Version)03. Ilija Djokovic – Aura04. Lilly Palmer – Listen To Me05. Erhalder – Slippery (Original Mix)06. Sam Paganini – Rave07. Trance Wax – Trance 2308. Hardfloor – Rosinenbrot (Gary Beck Edit)09. Aleja Sanchez – Octans (AWB Remix)10. Chris Liebing & Charlotte de … DFx pres. VideoCast 003 X-Max 2019 weiterlesen →

Welcome to the History of Computing Podcast, where we explore the history of information technology. Because understanding the past prepares us for the innovations of the future! Today we're going to look at the impact Stewart Brand had on computing. Brand was one of the greatest muses of the interactive computing and then the internet revolutions. This isn't to take anything away from his capacity to create, but the inspiration he provided gave him far more reach than nearly anyone in computing. There's a decent chance you might not know who he his. There's even a chance that you've never heard of any of his creations. But you live and breath some of his ideas on a daily basis. So who was this guy and what did he do? Well, Stewart Brand was born in 1938, in Rockford, Illinois. He would go on to study biology at Stanford, enter the military and then study design and photography at other schools in the San Francisco area. This was a special time in San Francisco. Revolution was in the air. And one of the earliest scientific studies had him legitimately dosing on LSD. One of my all-time favorite books was The Electric Kool-Aid Acid Test, by Tom Wolfe. In the book, Wolfe follows Ken Kesey and his band of Merry Pranksters along a journey of LSD and Benzedrine riddled hippy goodness, riding a converted school bus across the country and delivering a new kind of culture straight out of Haight-Ashbury and to the heart of middle America. All while steering clear of the shoes FBI agents of the day wore. Here he would have met members of the Grateful Dead, Neal Cassady, members of the Hells Angels, Wavy Gravy, Paul Krassner, and maybe even Kerouac and Ginsberg. This was a transition from the Beat Generation to the Hippies of the 60s. Then he started the Whole Earth Catalog. Here, he showed the first satallite imagery of the planet Earth, which he'd begun campaigning NASA to release two years earlier. In the 5 years he made the magazine, he spread ideals like ecology, a do it yourself mentality, self-sufficiency, and what the next wave of progress would look like. People like Craig Newmark of Craig's List would see the magazine and it would help to form a new world view. In fact, the Whole Earth Catalog was a direct influence on Craig's List. Steve Jobs compared the Whole Earth Catalog to a 60s era Google. It inspired Wired Magazine. Earth Day would be created two years later. Brand would loan equipment and inspire spinoffs of dozens of magazines and books. And even an inspiration for many early websites. The catalog put him in touch with so, so many influential people. One of the first was Doug Engelbart and The Mother Of All Demos involves him in the invention of the mouse and the first video conferencing. In fact, Brand helped produce the Mother Of All Demos! As we moved into the 70s he chronicled the oncoming hacker culture, and the connection to the 60s-era counterculture. He inspired and worked with Larry Brilliant, Lee Felsenstein, and Ted Nelson. He basically invented being a “futurist” founding CoEvolution Quarterly and spreading the word of digital utopianism. The Whole Earth Software Review would come along with the advent of personal computers. The end of the 70s would also see him become a special advisor to former California governor Jerry Brown. In the 70s and 80s, he saw the Internet form and went on to found one of the earliest Internet communities, called The WELL, or Whole Earth Lectronic Link. Collaborations in the WELL gave us Barlow's The Electronic Frontier Foundation, a safe haunt for Kevin Mitnick while on the run, Grateful Dead tape trading, and many other Digerati. There would be other virtual communities and innovations to the concept like social networks, eventually giving us online forums, 4chan, Yelp, Facebook, LinkedIn, and corporate virtual communities. But it started with The Well. He would go on to become a visiting scientist in the MIT Media Lab, organize conferences, found the Global Business Network with Peter Schwarts, Jay Ogilvy and other great thinkers to help with promoting values and various planning like scenario planning, a corporate strategy that involves thinking from the outside in. This is now a practice inside Deloitte. The decades proceeded on and Brand inspired whole new generations to leverage humor to push the buttons of authority. Much as the pranksters inspired him on the bus. But it wasn't just anti-authority. It was a new and innovative approach in an upcoming era of maximizing short-term profits at the expense of the future. Brand founded The Long Now Foundation with an outlook that looked 10,000 years in the future. They started a clock on Jeff Bezos' land in Texas, they started archiving languages approaching extinction, Brian Eno led seminars about long-term thinking, and inspired Anathem, a novel from one of my favorite authors, Neal Stephenson. Peter Norton, Pierre Omidyar, Bruce Sterling, Chris Anderson of the Economist and many others are also involved. But Brand inspired other counter-cultures as well. In the era of e-zines, he inspired Jesse Dresden, who Brand knew as Jefferson Airplane Spencer Drydens kid. The kid turned out to be dFx, who would found HoHo Con an inspiration for DefCon. Stewart Brand wrote 5 books in addition to the countless hours he spent editing books, magazines, web sites, and papers. Today, you'll find him pimping blockchain and cryptocurrency, in an attempt to continue decentralization and innovation. He inherited a playful counter-culture. He watched the rise and fall and has since both watched and inspired the innovative iterations of countless technologies, extending of course into bio-hacking. He's hobnobbed with the hippies, the minicomputer timeshares, the PC hackers, the founders of the internet, the tycoons of the web, and then helped set strategy for industry, NGOs, and governments. He left something with each. Urania was the muse of astronomy, some of the top science in ancient Greece. And he would probably giggle if anyone compared him to the muse. Both on the bus in the 60s, and in his 80s today. He's one of the greats and we're lucky he graced us with his presence on this rock - that he helped us see from above for the first time. Just as I'm lucky you elected to listen to this episode. So next time you're arguing about silly little things at work, think about what really matters and listen to one of his Ted Talks. Context. 10,000 years. Have a great week and thanks for listening to this episode of the History of Computing Podcast.

The UK general election, the state of the economy and potential investment opportunities, just some of the things discussed in this first market insight podcast on IG Trading the Markets. Justin McQueen from DFX provides key insight onto the current markets. Any opinions, news, research, analysis or other information does not constitute investment advice.

Datron's Fabian Puth talks to DFX about the Datron story and how they approach machine design. Eddie gets hands-on with a Datron Neo S2 in Germany and the USA. Links Datron AG on Instagram (@datron.ag) - https://www.instagram.com/datron.ag/ Datron Dynamics on Instagram (@datroncnc) - https://www.instagram.com/datroncnc/ Datron Website - https://www.datron.com/ DFX Podcast Instagram Account: @dfxpodcast

DFX catches up with Luke Bonathan, founder of Beaver CNC, now director of product development at Carbide 3D. Based out of Cheltenham UK Luke is visiting LA this week, where the DFX crew chatted with him about the history of the Beaver HDZ and what it takes to bring a maker product to market. Links Luke Bonathan (@luke.thebeaver on IG) - https://www.instagram.com/luke.thebeaver/ Carbide 3d (@carbide3d on IG) - https://www.carbide3d.com DFX Podcast Instagram Account: @dfxpodcast

Eddie is AWOL at EMO while Winston and Chris hold down the DFX fort. The West Coasters discuss their WESTEC visit. Education vs experience, which is more important in the shop? Chris contemplates his future while Winston's camping knife project is on point

Eddie and Winston welcome Chris as a permanent third host on DFX. Winston gets TIG-gy with it. Chris is hyped about learning HyperMILL. Eddie is heading off to EMO. Winston indexes the Yoda-Budda. Chris talks meteorite machining. Oh and Eddie drops some big news.

YouTube HQ Link: https://youtu.be/Dfx-uoj5-jM Alternate D/W Link: http://bit.do/AKDxMAFIABoys-JKCM Give Your Valuable Feedbacks!

YouTube HQ Link: https://youtu.be/Dfx-uoj5-jM Alternate D/W Link: http://bit.do/AKDxMAFIABoys-JKCM Give Your Valuable Feedbacks!

The DFX team is back from Portland and Chris Lee joins us for a recap of Autodesk's Fusion 360 Academy. We met a few DFX listeners and a whole Marvel Universe of our favorite Instamachinist super heroes. We talk about all the good stuff coming to Fusion later this year and in 2020. Links Matsuura custom fixture developed using Generative Design in Fusion 360 - https://www.youtube.com/watch?v=-9-BoJnXM8A Chris Lee (@chrislee.design on IG) - https://www.instagram.com/chrislee.design/ AvidCNC (@avidcnc on IG) - https://www.instagram.com/avidcnc/ Ed Rees (@spacelyguitars on IG) - https://www.instagram.com/spacelyguitars/ Tom Zelickman (@tjzelick on IG) - https://www.instagram.com/tjzelick/ Aaron Powter (@dctteacher1 on IG) - https://www.instagram.com/dctteacher1/ Angelo Juras (@the_true_croatian_sensation on IG) - https://www.instagram.com/the_true_croatian_sensation/ Tim Paul (@oneeartim on IG) - https://www.instagram.com/oneeartim/ Al Whatmough (@awhatmough on IG) -  https://www.instagram.com/awhatmough/

01. Dustin Zahn – Eternity’s Edge02. Boston 168 – Mind Field03. Caremajor – Philharmonics04. Crocetti – Blueprint05. Hanubis – Introversion06. SRVD – Talking 2 B Mad07. Chipi – Forbidden Thrill (Original Mix)08. Giacomo Renzi – Arrogance (Original Mix)09. Public Energy – Three O‘ Three10. Jeff Rushin – Confusion11. Giacomo Renzi – Kaleidoscope12. Manuel Di Martino … DFx pres. VideoCast 002 weiterlesen →

01. Space Motion – Karma 02. Jens Lissat, Ramon Zenker – Energy Flow Eternal (Loco & Jam Remix) 03. Mauro Picotto & Devid – Pyramid Soundwall (Stoneface & Terminal Remix) 04. Raito – Ikaruga 05. Pete Lazonby – Sacred Cycles (Adam Beyer, Bart Skils & Layton Giordani Renaissance Remix) 06. Julian Jeweil – Mars 07. … DFx pres. VideoCast 001 weiterlesen →

How to Build a 3D CAD Model: New Tools for Generating a 2D Floor Plan and a 3D CAD ModelHi All,Building a 2D Floor Plan and 3D CAD Model is now possible within the Cupix Platform.If you are a Service Provider targeting the AEC Space (Architecture, Engineering, Construction), you now have a wealth of easy, fast and affordable solutions to offer (and can do this within a White Label solution.)Cupix CAD Modeling Highlights Include✓ Cupix 3D Tour (360º Survey) is generated automatically from any source of 360º photos.✓ Alignment precision (accuracy) 1 percent with helmet mounted capture (meaning accuracy is one foot over 100 feet). ✓Build 3D CAD Model within Cupix 3D CAD System.✓ Within the Cupix platform lives a complete 3D CAD modeling system made specifically to transform a Cupix 3D Tour (360º Survey) into a 3D CAD Model.✓ Precise Measurements can be extracted from Cupix 3D Tour (360º Survey) to set windows; doors; and other openings quickly, accurately and easily. ✓ The Cupix 3D Mesh can be helpful during the modeling process especially in complex buildings.✓ Once completed the model can be exported in 2D and 3D Formats ✓ Import the Cupix 3D CAD model for use in a variety of CAD Systems file formats including: .DFX, .IFC, .PNG [Direct RVT export from Cupix not supported. IFC is the supported 3D format. Import from Cupix as IFC allows import into Revit, Navisworks, Sketchup and other CAD Packages.]✓ Open the Cupix CAD Model in programs like Revit; NavisWorks; and SketchUp for 3D Design; 3D Management; or 3D Analysis. ✓ Open the Cupix CAD Model in programs such as: Revit, NavisWorks, SketchUp for 3D Design, 3D Management or 3D Analysis.✓ Other uses of the Cupix 3D Model include: construction progress by comparing the Cupix CAD Model to other Cupix Tours (360º Surveys) directly within Cupix ✓ Add 3D Pins and 3D Tags on the Cupix CAD Model for issue tracking or or asset management.Cupix Director of Sales Scott Anderson - and Cupix Head of Product Paul Collart - will be my guests on WGAN-TV Live at 5 on Thursday, 20 December 2018 to give us a demo of building a 3D CAD Model within the Cupix platform and a discussion about this workflow. Feel free to join the show live to ask Scott your questions.✓ WGAN-TV Live at 5: How to Build a 3D CAD Model within Cupix Platform for Newbies - 5 pm EST Thursday, 20 December 2018.Special Offer for WGAN Standard and Premium MembersFREE! First six months of Cupix Small Plan + Studio Add On Pack (Publish to Google Street View), if you are a We Get Around Network Standard or Premium Member.To receive this WGAN Standard and Premium Membership benefit, please see the We Get Around Cupix Small Plan + Studio Add On Pack Offer Order Form in the Welcome Onboard Letter.Not Yet a WGAN Standard Member? www.JoinStandard.com | Compare WGAN Membership Plans | Member BenefitsHappy holidays,Dan---Cupix Related Links✓ Cupix website✓ Cupix Account Sign Up✓ Cupix YouTube Channel✓ WGAN Forum discussions tagged: Cupix | GSV | AEC

See all the show notes here.  Julie Ellis started her career as a representative for a semiconductor manufacturer after completing her Bachelor’s in Electrical Engineering. Now she is a Field Applications Engineer (FAE) at TTM Technologies, the third-largest circuit board manufacturer in the world. Listen to Julie and Judy discuss seamless global transfer and recommendations on working with offshore fabricators. Learn how to avoid excessive technical queries and how to migrate from prototype to production while optimizing global processes. Bonus update on AltiumLive: Julie and Carl Schattke will be presenting at AltiumLive 2018, introducing new stackup and impedance tools in Altium Designer 19, so be sure not to miss them! Show Highlights: Julie Ellis did a presentation about Documentation at AltiumLive 2017. What is Seamless Global Transfer? Transferring PCB manufacturing from onshore prototype level into production and offshore. Julie started her career at Hughes Aircraft, where she completed her Electrical Engineering Bachelor Degree - best decision of her life More women (not just circuit board barbie) need to get into STEM!  #WomenInTech. Julie always encourages young women who are interested in STEM, to get a degree that will enable them to move into fascinating jobs with a variety of opportunities. Julie’s first job was as a semiconductor manufacturer’s representative; realized she liked the circuit board side of the business more than ICs and migrated over. On TTM: It’s like working at Google for circuit boards, I can always call someone for answers about manufacturing best practices. Seamless global transfer - the concept is that you aren’t just designing for the prototype but for global manufacturing i.e. avoid 100 technical queries What makes migrating over such a difficult process? Because the 6-Sigma 6Ms, are not the same when it transfers over to Asia. What are the 6Ms?  Method, Mother Nature “Environmental”, (Man) People, Measurement, Machine, Materials. Equipment sets are different for mass production, production lines are longer, there is not as much human oversight, production lines must be scheduled and you cannot stop/start the process. The tolerances are different and they need to be accomodated in the designs. Throughput and drilling is always a bottleneck and to reduce this and reduce turn time, mass production sites have tweaked processes to get the highest yield. Internationally the general rule is 4 mil lines and spaces on half ounce copper; 10 mil is the most common size drill which results in an 8 mil finish hole size. As you go up in copper thickness you need to add a little bit to the pads. Blind vias are the ones that are on the outside but end up on an internal layer. Buried vias are buried completely inside the board. Working with offshore production house while still in prototype development phase. Recommendation - design for volume and technology. Qualify the design for the final production region and technology. HDI (High Density Interconnect) is anything 0.4 mm pitch and under that has a track running through the pads. Judy wants to throw everyone inside a fab house! There are at least 30 different processes required to manufacture one 4-layer board. Julie works directly with Carl Schattke and they will do a stackup presentation at AltiumLive 2018 Materials are a significant cost in Asia, whereas here in the states the material is less of a cost (20% in USA, 50% in China). With production panels where you're trying to get as many cookies cut, you also need to consider and discuss with your manufacturer the tiny 2x2 inch pieces.   Links and Resources: AltiumLive 2018: Annual PCB Design Summit AltiumLive 2017 Presentation TTM’s Interface Between Designer and Fabricator TTM Technologies Website Carl Schattke   Hi everyone this is Judy with Altium's OnTrack Podcast thanks again for joining. We're happy to have you again. I would like to continue to invite you to AltiumLive, and I also wanted to put a shout out that we have a call for presentations right now, so if you are an Altium Designer user, and you have some tips or tricks or some kind of breakthrough you've had on design please contact me at Judy.warner@altium.com and I'd love to hear from you ASAP. We'd love to have you present in San Diego or in Munich. Munich is January 15th through 17th and San Diego we are there October 4th, and 5th so look forward to hearing from you all. Once again I have another talented and amazing guest with me; Julie Ellis from TTM technologies which as you know is one of the largest board manufacturing companies not only in North America but in the world today so Julie is an FAE at TTM and a very well respected technologist as well as a dear friend. So Julie, welcome it's good to have you. Thank you. So Julie presented at AltiumLive last year on documentation. I've sat through many of her talks and learned much from her, so today we want to talk about what it takes to move jobs from onshore prototype level into production and offshore. She calls it seamless global transfer but before we get into that we'll hear a little bit about Julie's background. We both started in the printed circuit board industry in the 80s - which dates us a little bit I know -  we're not going to say the year we're just gonna go with the round numbers the 80s but I always... -we were child savants though so we say we were 12 -we were 12 -five -okay five, yeah we were five. So Julie just came in and noticed my super cool Career Barbie of 2018, which is a Robotics Engineer Barbie. She's got circuit board patterns on her shirt and a laptop, she kind of looks like us, so we're just gonna call her Circuit Board Barbie and you know blondes... smart ladies you know. Finally, there's a Barbie we can really relate to, and we want women to get into science and STEM and everything - so go for it and aspire to be this Barbie here. Right on, yeah! Girl Power. We want to get more women in here, and it's just about exposure and motivating others, so we hope that throughout this podcast we inspire maybe somebody to give a girl a little nudge out there. We've enjoyed long enjoyable careers. So, okay Julie before we get started, why don't you kick off and tell our audience a little bit about who you are and your background - how you got into this wonky industry? I am Julie Ellis; I started as a Design Engineer at Hughes Aircraft Company. I was awarded a student engineering scholarship there, which paid for most of my schooling - the rest of my schooling after I moved out here from Iowa - so I always tell everybody that getting a Bachelor of Science in Electrical Engineering was the best decision I've ever done in my life, so I really do encourage people. If you're interested in Math, Science, Biology - anything - get a good STEM degree so that you can always move forward into interesting, fascinating jobs with a lot of variety of opportunities. It's a really, really good way to go and I encourage youth and people to get into this kind of field. So I started as - once I graduated from Cal State Fullerton - I stayed on it until the 1990s when things got really tight in the military market, and I was on loan to one department, but I couldn't hire in, so I took the first job that was offered to me as a semiconductor manufacturer’s rep and I had circuit board industry or circuit board experience at Hughes and as a rep I also had a couple of circuit board lines and I really, really liked the printed circuit board side even compared to the ICS and memory sales and everything.  So I ended up migrating toward the printed circuit boards. Fast forward eight years, landed a great job at TTM as a Field Applications Engineer just a little over four years ago and it's been a fantastic opportunity. TTM is the world's third-largest printed circuit board fabricator, and we would probably be number two if it didn't include Flex because the top two manufacturers have a lot more flex and rigid-flex than we do, so I'm surrounded by experts in this field. It's like living in Google for printed circuit boards because whenever I really want to know something I can go call somebody within my company and find the answer, so it's it's really good working here. Really it's impressive, and you're right - like you really can go to anyone to get the latest and greatest information on manufacturing best practices which are really, really fun. So we wanted to talk today about Seamless Global Transfer, and I know that we've talked a lot on this podcast about there's no such thing as the quick and dirty prototype so why don't we just jump off from there? Like what does it mean? So you design a board it's gonna go into production, but you've got deadlines, you need to crank it out really quick, you crank it out really quick and then it's like: hey it works let's migrate offshore! [laughter] That’s right - that way exactly. That would be like the worst case scenario, like you heading for Niagara Falls and not knowing it. So why don't you talk about the myth of the quick and dirty prototype and why you really need to think about global manufacturing up front while you're just developing the circuit board and designing it? Yes, so Seamless Global Transfer is the concept that you're not just designing for your prototype to get it through a quick turn shop here in the United States in five days. Because I worked - one of the numerous positions - was as a Circuit Board Commodity Manager and a contract manufacturer and a lot of the projects we got had already been tested and proven and developed here in the United States. They sent it to us for mid-level production, we’d try to send the parts overseas, and everybody would come back with a hundred technical queries and say: we can't build it because we don't have this capability over in China. Oh, you need to change this on the design - it's not going to work, and by the time you've given your job to a contract manufacturer your engineers do not want to make changes to the design that they've already tested. So global seamless transfer plans ahead and thinks about: what is our migration path from quick turn development prototype and taking it over until long-term production and so there's a lot of background that goes into that, and that's what Judy and I wanted to talk about here.   So what is it that you think that makes that migrating over makes that a difficult process? Because the Six Ms: man, machine, materials, environment - which is another M that I can't remember. Everything is not the same when it transfers over to Asia. The equipment sets are different for mass production, the production lines are so much larger and often much more automated, so they can't get the human element,  you know. Watch this, watch that, we don't get the babysitting of our project over in China like we can here. In Asia or China, we have to schedule the production lines, and you can't just interrupt a line there to quickly throw this job in front of everybody else. The schedules are a lot different, the process tolerances are different, and because the process tolerances are different, we have to accommodate those in our designs. Okay, so there seems to be a perception anyways that once we have a pretty robust design here that we can just kind of throw it over the pond. Why is that, I mean you just talked about some reasons but what are some like tangible snags you're gonna run into if you try to do that? A lot of it has to do with the drilling. Like over in China most mass production shops, except for the really advanced HDI shops which would all go laser micro vias all the way through, as a rule don't drill using six mil drill bits because they're expensive, they break and they can't be re-sharpened and they break more easily and they have to be changed out twice as often as bigger drill bits. And bigger drill bits can be stacked, or you know, panels can be stacked. So if you can drill two or three panels at one time you've just got your throughput and drilling which is one of the largest bottlenecks in fabrication. You reduce your turn time significantly and time is money. What we're paying for in printed circuit boards besides materials, is the time it takes to get through the processes. So Asia and mass production sites have all tweaked their processes to achieve the highest yields, in the least amount of time, at the lowest cost. But there is a sacrifice to that and sometimes at the sacrifice of we need a better, bigger pad around a drill hole. We're going to stack two or three panels high instead of drilling a six mil drill and our plating processes are a little bit different so we may have to have more edge compensation. Which means that, that will drive a little bit larger requirements for line, width, and space. So on those, is there a recommended -  that's kind of a broad question - but are there recommended kind of hole sizes and pad sizes and/or trace and space sizes to help on the throughput? If you have it. Yeah kind of the general rule of thumb internationally, is 4 mil lines and spaces, on half ounce copper is a good start. Anything under that on half ounce copper is going to be a premium. And ten mil is the most commonly sized drill which would drop you down to an eight mill finish hole size. And we'd like to see the hole size plus ten mil for the pad. So if you've got an 18 or an 8 mil finished hole size, we would drill it probably at 10 or 12. We'd like to see at least an 8+, 10 and 18 mil pad on that hole. That's just for a single lamination through-hole in multi-layer printed circuit boards. As we go up in copper thickness, we need to start adding a little bit to the pads. Okay, and how does that change when you start adding buried and blind vias in? It depends on the construction. If we're talking like a real traditional blind via board; blind vias are the ones that are on the outside, and they end up on an internal layer. Buried are vias that are buried completely inside the board, and those are different technologies. But so if we're talking standard blind vias where we might have 1 to 6 and then 7 to 12, both being blind via stack-ups, we would actually stack up the material layers 1 to 6, drill and plate, and then we would stack up the materials layer 7 to 12 - drill and plate. And then we would laminate all those together, and then we would drill and plate and etch the outer layers. So those definitely have different rules because the two outer layers already have plating - additional plating - on the outer layers which means that we have to etch through thicker copper because of the foil plus the plating, and we're going to require slightly bigger line widths and spaces on that particular design. So one thing we were chatting about as we were preparing for the podcast, that I thought was obvious, but also fascinating, is the idea of working with your - you know, I kind of want to move into now, sort of takeaways for our audience. So you were talking about working with your offshore production house while you're in your prototype development stage which I think is kind of counterintuitive. I don't know, is it? Actually, if we are in the prototype development stage, it's the best way to do it because if - I always recommend that my clients design for volume. Whatever their final volume is you know, we all know the term DFM, but we really have to take it to heart to figure out, qualify the design for the final production region. Final production technology, whether it's a single lamination or a multi-lamination that's not HDI board like I just brought up, or whether it's an HDI board that has blind and buried vias, but with laser micro vias and advanced HDI board which I categorize as anything 0.4 millimeter pitch and under, that has a track running through the pads. So if you start at your before-prototype stage, qualified the design for the volumes and the technology so that you can pick your final production sites, get the design guidelines for those sites, get the stack up for those sites, and have the stack up and the design guidelines identified before you even route the board. And if you do that then you're not going to route a whole board, send it over to China, and China is going to say: oh sorry those line widths and spaces, there's not enough space for us to compensate the etch and artwork during etch, we can't build it this way. Go increase your spaces, and if you don't have room on a tightly designed board, or if your pads aren't big enough to achieve the annular ring that you're asking for, your design is no good for manufacturing. So my term is ‘design for volume,’ but it means whatever your volume is. And the reason I'm doing that, or I'm saying 'your volume' is because we have customers that do 200 printed circuit boards a month, and we have customers that do a million circuit boards a month. And the shop that does the million circuit boards a month is not going to take the 200 circuit boards per month order, but they have a much higher level technology - so I can't design for that technology knowing that I could never run it in that particular site. Right, so it's both volume and technology. I feel like it's such a good service, in many ways on the prototype end, that we can kind of do push-button ordering now, but I also feel like what's has been lost is how complex the fabrication process is and I just wish -  I want to throw everyone inside a fab shop. Because it's like when you - think you can just push a button and then a package shows up on your door; you know what I'm saying? That every shop is a little unique is for a variety of reasons. It's not - for reasons that enable different types of technologies - they do it with high intention and lots of precision and all of that, and so you have to design for that shop. It's not just push-a-button and out it comes. Especially the more complex the board gets, so, on the one hand, I'm a fan to get the prototypes out fast, onshore when you can, have maybe available that kind of service. But on the other side, if you're going into volume, I don't know - I think it gives people sort of a false perception of what it's like on the other end. Talk about - I think you mentioned this stack up; getting this stack up right at the... I really like that DFM right, design for volume, that was kind of a new concept to me that you introduced me to. So you're saying that the stack up should be kind of vetted and worked out with the volume as well as, what kind of board, what kind of technology buried/blind vias, you have the space levels to also work out the stack of details. Yeah we need all that information to be able to create the stack up because most of those multi-layer boards with VGAs also require controlled impedance like for the high-speed digital that we're doing all the autopilot, industrial controls, medical controllers, everything seems to be working off some sort of USB and PCI, and we need to manage the controlled impedance. Controlled impedances based on line width, space, and how thick the dielectric is and to a little teeny effect, how thick the copper is. So we have to play all these together while creating a stack up and also keeping track of, if we're doing stacked or offset micro vias. We build those from the inside out and just keep adding layers, drill the outer layer down to the next layer, then on both sides then we add two more layers drill the outer layer down to the next layer. But each time we do that, we have to figure out how we're going to plate those and how thick the plating is going to be and those are process variances are you know. There are process capabilities and variations from site to site, and there can be unintended consequences along the way, like putting additional copper on that outer layers - it's the more complex it gets you have these: if you do this, then this you know, what I'm saying there's so many! Anybody who has seen my presentations knows that I always say that I'm always splitting hairs. Because a human hair is about 2.5 to 3 mils in diameter, and I'm always worrying about unintended consequences because if a customer comes in and they say: I want thick plating inside my hole walls you know, give me 2 mils of plating inside my hole walls. Well for one I can't think of one fabricator in China that would do that. The IPC standard for class three is 1 mil average plating in the hole walls. But the other thing is, remember whenever we plate inside the hole walls we're also plating the surface, the outer surfaces, the thicker those outer surfaces get, the harder they are for us to etch fine lines and spaces. Well, why don't you just put it through the machine that just spits out the board Julie? We need a magic machine! If I could do that I wouldn't have to be here... I'd be somewhere on my own Island in Bora Bora... Barbie we need a magic machine to spit out - maybe Barbie will get you to know either a Barbie plane and maybe she'll have a Barbie magic PCB? That'd be great. Then you know, in Barbie's world I think we'll just spit it out, I know - it's very complex and by the way. Let me stop right here and say that Julie helps every top brand that you could probably think of in Silicon Valley and beyond; helps them to do their stack-ups and come up with these you know, calculations to help work out all this hair-splitting and she's very skilled and capable. And that's why she will be presenting at AltiumLive with a senior PCB designer who she works with directly which is Carl Schattke, I cannot tell you what brand he works for, or I would get in trouble, but suffice it to say he's in Silicon Valley and works for the top electric car manufacturer and I am delighted that Julie and Carl will present on stack up on this very subject, and you couldn't get two more qualified people - I’m so excited that you're doing that. Thanks, we are too - I think it will be fun. It'll be really fun, and so they're so used to being deep in the weeds they'll be such a resource. So before you move on though, it's not just the stack up, it's also the pad stack line, widths, and spaces that need to be provided to the customer with the stack up. Because we want to make sure that they know all of those design requirements before the board guy starts routing everything. You talked about DFM and DRC's for final site and prep for the prototype. Is that - I just wrote myself a note here - have we covered most of that here? Yeah, we have for the stack up and the design rules. But one thing I'd like to bring up is everybody's trying to stay competitive and because of the processes and the way that production panels are laid out in Asia. Materials are a significant cost over in Asia compared to here in the prototype shops. Here we pay for the quick turns, for the setups and things like that which are insignificant compared to those. So the material here is only about 20% of the average cost compared to 50% of the cost in Asia. So if you can also plan your size to fit well up on a production panel so that like, imagine an 18 by 24 inch production panel, and you're trying to get as many cookies cut on that production panel, but you also want to think if you've got really small pieces your assembler is not going to be able to load those tiny little 2x2 inch pieces. Their conveyor equipment can't hold them, and it would take them forever to go through those linearly, so another really cost-saving exercise is to work with both your fabricator and your assembler to come up with a multiple up-array for smaller boards and also make sure that you know whether you've got enough clearance on the two long sides of your array, or your printed circuit board for the parts to be conveyed through assembly. There's sometimes parts hanging off the edge which really makes things fun. Yeah and that needs to be planned for in advance, whether: do you need an extra rail on a leading edge, because there's a big connector hanging there, or is the assembler going to put that on after the fact? But if you also take into account design for assembly - put all your test points on the board because once the board is designed and you can access test points, nobody's going to be able to go back in and design an in-circuit test fixture or functional test fixture and unpick those plates. So don't just design for volume. Like I said really, truly design for DFX, design for fabrication, assembly, test, and long-term reliability. Good, good, good, good advice. So can you give some real-life examples from your real life career? We won't name names of brands but suffice it to say there; you work with major consumer brands that if we could say names everyone would recognize them and tell us some of the, you know challenges that they had by actually not thinking about some of these ideas ahead. And these are the brightest of the brightest - I think what we want to share here is, everybody is challenged in this area, right? It's a challenging area, so we're not saying, oh we're so smart, and you know the audience what do they know? No, the top designers, the top printed circuit board designers almost in the world,  are challenged by some of these issues. So just talk about some real-life examples and how it went wrong or how it went right?   Okay one real-life example in the last quarter was a major commercial customer like you said, they had worked with a - probably a Silicon Valley shop - they built their boards, tested them out, proved them, and they wanted to go into mass production. Their start date is like August, to start delivering mass production so that they can you know, start shipping their product. Well it turns out they had a design that had a six mil drill - mechanical drill through a standard thickness board with a ten mil pad and when I said, remember I said like, do your finish hole size plus ten for the pad, this only gave the hole size plus four, and it wasn't enough to make sure that people wouldn't totally drill you know, have too much because of misregistration material movement. Every time you add a process, you add misregistration. Nobody in Asia would take this business, and we actually had to help the customer convert the whole design to another via structure type to be able to pull it off. And the way this happens is one of two things: if you're a major customer and you go to a, you know like a smaller shop, they are going to be so hungry for your business they're not going to say, no, no, no - we can't do that. They are going to babysit every single panel and put them in the drill machine by hand and make darn sure that they're going to get that for you. Or there are probably a few select super, super advanced shops that are just doing onesie-twosie jobs and they can meet these kind of requirements, and these tight process tolerances, using direct imaging everywhere you know, using single headed drills for the production panel rather than five or six spindles that we use. And so it's not even saying that that particular circuit board fabricator was a bad designer - it's just that they're only designing for their site capabilities and probably pushing technology to make a big customer happy. Right, and that may be their niche, that may be their niche market - but again they're not thinking particularly ahead, they're trying to help their customer be - - so it's kind of myopia. They're just designing for that, and they're great shops, they're great shops very, very capable, but not unless you tell them up front or you start this conversation up front it can go bad like that. On a consumer product that, okay it's August let's go into production and then wait, stop. Stop everything and the cost, the headache to that customer, they have to respin the board, run the protos over again and do all the testing over again. And now, schedules are lost, time to market is lost, you know so that it can become really painful very quickly and very costly. Yeah very costly. And I had another similar design that my customer had a design with 5 mil mechanical drills and 9 mil pads and most shops I know don't really drill mechanical 5 mils. So that was a tough one for him to go into production. So that's a real common example. The wrong size drill with the wrong size pad, or one that I just saw recently, was a really thick dielectric that still needed a blind hole and it was planned on being a laser hole because they wanted some big RF circuits on the outer layer. Which means they needed a thick dielectric and normally if you're using laser micro vias you have very thin dielectrics. And I was able to confirm that we can do it over in China but it's - it wouldn't have been my first choice for a design you know, and it kind of set me back but - but we were capable on that one. Yeah so, you have a saying that I like which is: pick your experts wisely. So tell us what that means? What you mean when you say that; pick your experts wisely? Well if you're going to listen to an expert, they're going to segue you to the path that they know, and if you pick the wrong expert and they take you down a garden path that nobody else can fabricate. I know that there are shops that they'll say: let's do this and let's have the customer design it this way because then they can't go anywhere else. It's a way to guarantee their business. I can confirm that you know, I've seen entirely that. It locks you into that job. It locks you into that job, and you know, I can see both sides. I'm like this ambidextrous Gemini so I can see both sides of the story. I can see an internal engineer wanting to secure future business for their location. But on the other hand, it may not be good long-term for the customer. And I'm in it for the long haul you know, I've been both sales and technical support, and a lot of times I have to work with customers to make slight modifications and design engineers; these are your babies. You don't want to have somebody coming in from the outside and saying, you know what, I really can't quite achieve that. Can we tweak your design a little bit? Who wants to hear that? But if I have credibility, as somebody who's thinking for the customer, for the fabricator, and working towards the best solution long-term. I've - you develop trust, and you can get better work done. So, I choose to do the good path even though it probably means that I tell everybody I'm a conservative designer and so that means that if you design a stack up - if I design your stack up, give you the design rules, if you can meet them chances are one of my competitors can also do the work. Yeah, but on the other hand you know, the relationship most of the time means a lot. Right it does, and not everybody has both the technical depth that you have, the integrity you have, and you have reached to top, top fabrication experts in the world. So that gives you a really broad perspective which I appreciate. So Julie thank you so much. This has been so great, and I feel like we've just scraped the surface but I would like to invite our listeners, if you are available, to come to AltiumLive and Julie will dig into - she and Carl Schattke have an hour-long presentation plus QA and, will be introducing some new stack up and impedance tools in Altium Designer 19, and so they will be giving a really rich treatment of the subject of stack up. So if you want to hear more from Julie, come on out to AltiumLive, and we would love to have you. Thanks again Julie, it's always - I always learn from you every- - - thank you. Every time we talk. So there is one other thing that we should talk about. What should we talk about? Okay the other background of seamless global transfer is that if you're working with a company that has multiple sites like DTM - we can take that - we can take the lessons learned from the prototypes, and transfer the data, and transfer the lessons learned over to the final fab site, so that it's not a new learning curve once it goes overseas. And that's a real advantage about really paying attention to this. Right, which is a good point. Yeah. Do you transfer the learning curve along with just the data files right? That's right yeah. So good point. Okay, thanks for inserting that again. This has been Judy Warner with Altium's OnTrack podcast, and Julie Ellis of TTM. We look forward to you joining us again next time. Until then, remember to always stay OnTrack.

Winston and Eddie are joined by fellow instamachinist Marvin Groeb (@marvgro on IG) on DFX episode 6. Learn how Marvin combines his formal material scientist education along with a tinkerer's talent for CNC machining to push the limits of surface finish quality in his role at Kern Microtechnik. Hear about how one of the world's highest precision CNC milling machines is designed. And we discuss Marvin's experience with building the ultimate DIY 3d printer, the maker scene in Germany and why less is sometimes more when it comes to single flute end mills. In a brief shop update we discover that Winston will soon be IMTS-bound while Eddie cleans up the dust after some minor workshop remodeling. Links Marvin's IG page (@marvgro) - https://www.instagram.com/marvgro/ Marvin's YouTube Channel - https://www.youtube.com/channel/UCTh2mUhpjPQC-Uqj-9u4_jQ Marvin's Octogon-enclosed DIY delta 3d printer (photo) - https://dfxpodcast.podbean.com/mf/web/8eps9y/Octagon-3D-Printer.jpg 3d-printed lead screw made on the DIY printer (photo) - https://dfxpodcast.podbean.com/mf/web/apwd78/3d-printed-lead-screw.jpg Nicholas Hacko Watch on IG (@nicholashackowatch) - https://www.instagram.com/nicholashackowatch/ Stephan Gotteswinter on IG (@stefan_gtwr) - https://www.instagram.com/stefan_gtwr/ KERN Microtechnik - https://www.kern-microtechnik.com/en/home/ Kern machining action on Youtube - https://www.youtube.com/watch?v=lKQPfkSZzR0 Datron - https://www.datron.de/en_gb/start.html

DFx pres. The other Side 003 01. Luca Ballerini – Magnolia 02. Ben Long – The Solver (Charlotte de Witte Remix) 03. Maxime Dangles – Dew of Heaven 04. Urbano – Brother 05. Setaoc Mass – Left Behind 06. Cleric – Silent Kingdom 07. Guillermo DR – Distorcion 08. Eeemus – Ode to Kimnara (Original … DFx pres. The other Side 003 weiterlesen →

Winston and Eddie have their first guest host on DFX. Danielle Applestone, Founder and CEO of Daughters of Rosie, and former CEO at Bantam tools, joins us for a discussion of our robot future, the early days of the Othermill, and how she is working to bring more women in to fill the growing backlog of well-paying jobs in American manufacturing, before it's too late. Links Danielle Applestone at Hackaday Superconference 2017 - https://hackaday.com/2017/12/08/danielle-applestone-building-the-workforce-of-2030/ Daughters of Rosie - www.daughtersofrosie.com Bantam Tools - www.bantamtools.com "#trades_women_of_ig" hashtag on Instagram - www.instagram.com/trades_women_of_ig Develop 3D Conference - October 2 - https://d3dliveusa.com/speakers/danielle-applestone/

DFx pres. The other Side 002 01. Tim Penner The Temptress (Original Mix) 02. Sukotto – The Avery (DJ Taucher Remix) 03. Animal Trainer – In Space (Manuel Moreno Remix) 04. Roman Poncet – Epreuve 05. L.S.G. – When It’s Dark Outside (Oliver Lieb Remix) 06. Renato Cohen – Sauna 07. Ricky Sinz – Driven … DFx pres. The other Side 002 weiterlesen →

I'm working on a new retropie project that uses the Raspberry Pi Zero W and the new Adafruit Joy Bonnet. Before I can design an enclosure for this project, I need to 3D model the PCB + components! Using EagleCAD and Fusion 360, I exported a DFX, which is a drawing of the footprints of each component, and import that into Fusion 360. This makes modeling a whole lot easier! I normally would use the dimension tool and recreate all of the components, but this method remove all the steps of figuring out the position of each component. I still need to use a set of calipers to measure things like the depth of the buttons, height of the headers, that sort of thing. If anyone is interested in using this component for their project, I made the F360 source available to download – You can also download it as a STEP or STL (or many other formats) to reuse in your CAD package of choice. Thanks for watching! Adafruit Joy Bonnet https://www.adafruit.com/product/3464 Raspberry Pi Zero W https://www.adafruit.com/category/813 Download F360 Source http://a360.co/2pm6fDk Calipers https://www.adafruit.com/categories?q=calipers& Shop for parts for your own DIY projects http://adafru.it/3dprinting Download Fusion 360 FREE http://autode.sk/1Ro3wkb 3D Printing Projects Playlist: https://www.youtube.com/playlist?list=PLjF7R1fz_OOWD2dJNRIN46uhMCWvNOlbG 3D Hangout Show Playlist: https://www.youtube.com/playlist?list=PLjF7R1fz_OOVgpmWevin2slopw_A3-A8Y Layer by Layer CAD Tutorials Playlist: https://www.youtube.com/playlist?list=PLjF7R1fz_OOVsMp6nKnpjsXSQ45nxfORb Timelapse Tuesday Playlist: https://www.youtube.com/playlist?list=PLjF7R1fz_OOVagy3CktXsAAs4b153xpp_ ----------------------------------------- Visit the Adafruit shop online - http://www.adafruit.com Subscribe to Adafruit on YouTube: http://adafru.it/subscribe Join our weekly Show & Tell on G+ Hangouts On Air: http://adafru.it/showtell Watch our latest project videos: http://adafru.it/latest New tutorials on the Adafruit Learning System: http://learn.adafruit.com/ Music by bartlebeats: http://soundcloud.com/bartlebeats -----------------------------------------

I'm working on a new retropie project that uses the Raspberry Pi Zero W and the new Adafruit Joy Bonnet. Before I can design an enclosure for this project, I need to 3D model the PCB + components! Using EagleCAD and Fusion 360, I exported a DFX, which is a drawing of the footprints of each component, and import that into Fusion 360. This makes modeling a whole lot easier! I normally would use the dimension tool and recreate all of the components, but this method remove all the steps of figuring out the position of each component. I still need to use a set of calipers to measure things like the depth of the buttons, height of the headers, that sort of thing. If anyone is interested in using this component for their project, I made the F360 source available to download – You can also download it as a STEP or STL (or many other formats) to reuse in your CAD package of choice. Thanks for watching! Adafruit Joy Bonnet https://www.adafruit.com/product/3464 Raspberry Pi Zero W https://www.adafruit.com/category/813 Download F360 Source http://a360.co/2pm6fDk Calipers https://www.adafruit.com/categories?q=calipers& Shop for parts for your own DIY projects http://adafru.it/3dprinting Download Fusion 360 FREE http://autode.sk/1Ro3wkb 3D Printing Projects Playlist: https://www.youtube.com/playlist?list=PLjF7R1fz_OOWD2dJNRIN46uhMCWvNOlbG 3D Hangout Show Playlist: https://www.youtube.com/playlist?list=PLjF7R1fz_OOVgpmWevin2slopw_A3-A8Y Layer by Layer CAD Tutorials Playlist: https://www.youtube.com/playlist?list=PLjF7R1fz_OOVsMp6nKnpjsXSQ45nxfORb Timelapse Tuesday Playlist: https://www.youtube.com/playlist?list=PLjF7R1fz_OOVagy3CktXsAAs4b153xpp_ ----------------------------------------- Visit the Adafruit shop online - http://www.adafruit.com Subscribe to Adafruit on YouTube: http://adafru.it/subscribe Join our weekly Show & Tell on G+ Hangouts On Air: http://adafru.it/showtell Watch our latest project videos: http://adafru.it/latest New tutorials on the Adafruit Learning System: http://learn.adafruit.com/ Music by bartlebeats: http://soundcloud.com/bartlebeats -----------------------------------------

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