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X-WR-CALDESC:Events for TechWorks
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DTSTART;TZID=Europe/London:20260520T140000
DTEND;TZID=Europe/London:20260520T150000
DTSTAMP:20260511T134751Z
CREATED:20260511T134539Z
LAST-MODIFIED:20260511T134751Z
UID:7013-1779285600-1779289200@techworks.org.uk
SUMMARY:"Female Business Leaders and Founders: Challenges and Opportunities for Growth" at Innovation Fest
DESCRIPTION:📅 Wednesday 20 May 2026\n🕑 2:00–3:00pm\n📍 CST 008\, STEAMhouse (Main Stage) \nThis session brings together a carefully selected group of female founders and business leaders to explore the realities of building and scaling ventures\, sharing practical insights on growth\, leadership\, and opportunities within the current landscape. The session will be delivered as a moderated panel discussion followed by audience Q&A. \nWe’re expecting an engaged audience of founders\, professionals\, and individuals across the innovation and business ecosystem\, and it would be great if you were able to share this with your team and wider network. \nThe wider Innovation Fest programme is available on the website. Guests can register via the website by selecting Wednesday and noting the panel “Female Founders Panel” in the comments:
URL:https://techworks.org.uk/event/female-business-leaders-and-founders-challenges-and-opportunities-for-growth-at-innovation-fest/
LOCATION:University of Birmingham\, Birmingham City University\, Curzon Building 4 Cardigan Street\, Birmingham\, B4 7BD
CATEGORIES:past-events,TechWorks
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20260519
DTEND;VALUE=DATE:20260520
DTSTAMP:20260511T140331Z
CREATED:20260511T140331Z
LAST-MODIFIED:20260511T140331Z
UID:7017-1779148800-1779235199@techworks.org.uk
SUMMARY:Intel: From Construction to Signoff: 3DIC Methodology for Disaggregated Designs
DESCRIPTION:
URL:https://www.synopsys.com/webinars/intel-3d-multi-die-design-signoff.html?utm_source=techworks&#038;utm_medium=link&#038;utm_campaign=mds&#038;utm_content=intel-signoff-wbnr_link_mul_wbn&#038;tags=Webinars#new_tab
CATEGORIES:Member Event,past-events
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260514T120000
DTEND;TZID=Europe/London:20260514T123000
DTSTAMP:20260305T110250Z
CREATED:20260305T110250Z
LAST-MODIFIED:20260305T110250Z
UID:5891-1778760000-1778761800@techworks.org.uk
SUMMARY:AESIN Webinar: ADAS Fit for the Future
DESCRIPTION:New Advanced Driver Assistance Systems (ADAS) are transforming the way we interact with our car and shaping the road towards full autonomy. \n\nWhere is the technology today?\nWhat are the emerging features?\n\nSuch as predictive safety\, driven by legislation changes.\n\n\nWhat are the leading ADAS features for various OEMs/vehicles?\n\nWhat is the plan for the future?\nAnd the challenges with implementing these?\n\n\n\nYou will gain insights into the innovations on the horizon and the regulatory forces accelerating or constraining progress in this exciting and rapidly evolving domain.
URL:https://techworks.org.uk/event/aesin-webinar-adas-fit-for-the-future/
LOCATION:Webinar
CATEGORIES:AESIN,past-events,TechWorks
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260512T080000
DTEND;TZID=Europe/London:20260512T170000
DTSTAMP:20260429T110606Z
CREATED:20260429T110507Z
LAST-MODIFIED:20260429T110606Z
UID:6769-1778572800-1778605200@techworks.org.uk
SUMMARY:Intel: Enabling and Evaluating Intel EMIB-T Bridging Design with Synopsys Tools
DESCRIPTION:
URL:https://www.synopsys.com/webinars/intel-emib-t-design-advanced-ai-datacenter-solutions.html?utm_source=techworks&#038;utm_medium=link&#038;utm_campaign=mds&#038;utm_content=intel-emib-t-wbnr_link_mul_wbn&#038;tags=Webinars#new_tab
CATEGORIES:Member Event,past-events,Webinar
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/04/NEW-Techworks-site-featured-images-2026-04-29T115957.084.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260430
DTEND;VALUE=DATE:20260501
DTSTAMP:20260410T152849Z
CREATED:20260408T100947Z
LAST-MODIFIED:20260410T152849Z
UID:6357-1777507200-1777593599@techworks.org.uk
SUMMARY:Synopsys: Powering 3D Multi-Die Designs with RedHawk-SC Electrothermal
DESCRIPTION:
URL:https://www.synopsys.com/webinars/powering-3dic-systems-redhawk-sc-electrothermal.html?utm_source=techworks&#038;utm_medium=link&#038;utm_campaign=mds&#038;utm_content=redhawk-sc-for-multi-die-designs_link_mul_wbn&#038;tags=Webinars#new_tab
CATEGORIES:Member Event,past-events,Promoted
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/04/NEW-Techworks-site-featured-images-2026-04-08T110634.323.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260430
DTEND;VALUE=DATE:20260501
DTSTAMP:20260410T153442Z
CREATED:20260410T151856Z
LAST-MODIFIED:20260410T153442Z
UID:6384-1777507200-1777593599@techworks.org.uk
SUMMARY:Marvell: Accelerating Interposer Design with Early Signal Integrity Analysis
DESCRIPTION:In this webinar\, Marvell will present how its team accelerates passive interposer routing for advanced 2.5D/3.5D multi die designs by bringing early\, physics based signal integrity feedback into each routing iteration. Rather than relying on repeated\, compute intensive 3D FEM cycles during development\, Marvell uses a Method of Moments (MoM) early SI check available within Synopsys 3DIC Compiler to evaluate routing with real parasitics and simulation data\, fast enough to support rapid iteration and safer exploration of auto routing strategies. Marvell will also share practical correlation takeaways\, where MoM tracks FEM strongly and where additional margin and correlation work may be needed ahead of final signoff.
URL:https://techworks.org.uk/event/marvell-accelerating-interposer-design-with-early-signal-integrity-analysis/
CATEGORIES:Member Event,past-events,Promoted
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END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260429
DTEND;VALUE=DATE:20260430
DTSTAMP:20260413T090240Z
CREATED:20260413T090240Z
LAST-MODIFIED:20260413T090240Z
UID:6389-1777420800-1777507199@techworks.org.uk
SUMMARY:Application-Specific Processors (ASIPs) for Physical AI
DESCRIPTION:
URL:https://www.synopsys.com/webinars/application-specific-processors-asip-physical-ai.html?utm_source=techworks&#038;utm_medium=link&#038;utm_campaign=sip_processor-ip&#038;utm_content=asips-pysical-ai-wbnr_link_mul_wbn&#038;tags=Webinars#new_tab
CATEGORIES:Member Event,past-events,Promoted
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260423T160000
DTEND;TZID=Europe/London:20260423T163000
DTSTAMP:20260612T121430Z
CREATED:20260302T111641Z
LAST-MODIFIED:20260612T121430Z
UID:5828-1776960000-1776961800@techworks.org.uk
SUMMARY:How to move from Individual Contributor to Leader in a Male Dominated Environment: A Women in TechWorks Fireside Chat
DESCRIPTION:Our speaker will be talking from two perspectives – firstly her own experience moving into leadership\, and secondly as a leader what I look for in high potential juniors and the behaviours that are helpful \nBiography \nEllie Bramer is an Engineering Manager at Arm\, where she leads multiple teams of software engineers at the intersection of advanced computing\, AI\, and ecosystem innovation. With a background as a systems engineer in the defence sector she has built her career in male-dominated environments\, progressing from individual contributor to experienced engineering leader. Ellie is passionate about building high-performing technical teams and creating pathways for more women to thrive and advance in engineering and tech fields.
URL:https://techworks.org.uk/event/how-to-move-from-individual-contributor-to-leader-in-a-male-dominated-environment-a-women-in-techworks-fireside-chat/
LOCATION:Webinar
CATEGORIES:past-events,TechWorks,WITW-Past Event,Women in TechWorks
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260423T140000
DTEND;TZID=Europe/London:20260423T150000
DTSTAMP:20260410T152118Z
CREATED:20260326T114231Z
LAST-MODIFIED:20260410T152118Z
UID:6249-1776952800-1776956400@techworks.org.uk
SUMMARY:IoTSF Webinar: CRA Reporting Obligations with Mustanir Ali (Element)
DESCRIPTION:
URL:https://us06web.zoom.us/webinar/register/WN_Lg_DkdFZSx-6TwSdFY5Hxg#/registration#new_tab
CATEGORIES:IoTSF,past-events,TechWorks,Webinar
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END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260416
DTEND;VALUE=DATE:20260417
DTSTAMP:20260413T174423Z
CREATED:20260123T154352Z
LAST-MODIFIED:20260413T174423Z
UID:4805-1776297600-1776383999@techworks.org.uk
SUMMARY:FPGA Frontrunners @ Microchip
DESCRIPTION:CLICK HERE to find out more about the FPGA Frontunners group \n\nField Programmable Gate Arrays (FPGAs) play a critical role in modern electronic systems\, powering applications that range from everyday consumer products to mission-critical infrastructure. Their ability to be customized and reconfigured after deployment makes them uniquely valuable in fast-moving technology environments. At the same time\, this adaptability introduces distinct security challenges that must be carefully addressed. \nBecause FPGAs can be reprogrammed in the field\, they present a broader attack surface than fixed-function hardware. Threats targeting configuration data\, intellectual property\, firmware integrity\, and runtime behavior can compromise not only the device itself\, but also the larger systems that rely on it. As FPGAs are increasingly used to support advanced workloads—including data-intensive and intelligent processing—security risks continue to grow in both scope and impact. \nEffective FPGA security extends beyond physical protection. It encompasses the full lifecycle and ecosystem surrounding the device\, including design tools\, bitstreams\, firmware\, software interfaces\, and data flows. In systems that incorporate adaptive or AI-assisted functionality\, ensuring trust\, integrity\, and resilience across this ecosystem is especially critical. \nThis event explores the evolving landscape of FPGA security\, highlighting emerging threats\, recent advances\, and proven mitigation strategies. Through expert insights and real-world case studies\, the program aims to equip engineers\, researchers\, and security professionals with practical guidance for securing FPGA-based systems today and in \nknowledge\, techniques\, and assurance frameworks necessary to design systems that are not only resilient and secure—but demonstrably so. \nWho Should Attend\n\nFPGA Designers and Engineers\nSystem Architects\nSafety and Security Specialists\nSupply Chain Professionals\nIndustry Regulators and Standards Bodies\n\nWhy Attend? \n\nGain insights from leading experts on the evolving risks and mitigation strategies\nLearn how to meet functional safety and security requirements across multiple industries\nNetwork with industry peers and potential collaborators\nParticipate in discussions on best practices\, regulatory trends\, and real-world case studies\n\nAgenda\n\n\n\n\nTime\nDetails\n\n\n\n\n10:00\nRegistration\n\n\n10:30\nMicrochip Secure FPGA’s\nIan Pearson\nPr. ESE\, Microchip\n\n\n11:00\nA Visual Demonstration of True Random Numbers from a Quantum Computer\nPhill J Payne\nPrincipal Digital Design Engineer\, Novomorphic\n\n\n11:30\nAre FPGAs unique for security?\nMartin Thompson\nSenior Technical Specialist\, ZF Engineering Solutions\n\n\n12:00\nBeyond Bitstream Encryption: FPGA Security for High-Assurance Systems\nDaniel Tee\nSenior Firmware (FPGA) Engineer\, Leonardo\n\n\n12:30\nNetworking Lunch\n\n\n13:30\nOverview of prEN50767 : CRA Vertical Standard for FPGA/ASIC\nPeter Trott\nStaff FAE\, Microchip\n\n\n14:00\nHardware-Rooted Bitstream Security\nMans Ahmadian\nChief Innovation Officer\, Sundance\n\n\n14:30\nWrap Up\n\n\n14:45\nClose\n\n\n\n\nSpeakersDetailsPhill J Payne \nPrincipal Digital Design Engineer\, Novomorphic \n×Philip Payne\nPrincipal Digital Design Engineer\, Novomorphic\nPresentation: A Visual Demonstration of True Random Numbers from a Quantum Computer \nTrue randomness is one of those things everyone assumes they have… right up until security\, trust\, or assurance actually matters.\nThis session reveals a practical way to pull physical entropy from a real quantum computer and inject it into FPGA and embedded systems as a usable\, engineering-grade input. You’ll see quantum behaviour turned into something tangible and immediate — a live “quantum dice” demonstrator that makes the invisible visible — and you’ll learn why this matters far beyond novelty. \nWe’ll explore what changes when your randomness isn’t “noisy enough” pseudo-random\, but rooted in genuine physical uncertainty\, and how that can reshape thinking around key generation\, nonces\, reseeding\, and trusted system design. A live comparison between simulation and real quantum hardware draws a clear line between “looks random” and “is random”. \nIf you build secure edge systems and care about trust boundaries\, this will change how you think about entropy. \nBiography \nPhill J Payne is Principal Digital Design Engineer at Novomorphic\, specialising in secure\, real-time FPGA and embedded architectures for edge AI. He is developing convolution acceleration and a modular hardware fabric that composes reconfigurable pipelines\, reduces memory pressure\, and delivers high-performance vision and inference at the edge. Across 26 years\, Phill has turned novel architectural ideas into deployable systems under tight power\, latency\, throughput\, and reliability constraints\, with deep experience in security-grade FPGA development and signal-processing workloads. Previously\, he delivered end-to-end FPGA firmware and software for advanced systems\, including a patented communications technique designed to operate in contested jamming environments\, later acquired by a major defence prime. He also built specialised training systems used in preparation for the London 2012 Olympic Games\, translating complex engineering into practical tools. \nCloseDetailsMartin Thompson \nSenior Technical Specialist\, ZF Engineering Solutions \n×Martin Thompson\nSenior Technical Specialist\, ZF Engineering Solutions\nPresentation: Are FPGAs unique for security? \nIn this talk we will investigate the degree to which systems containing programmable logic (including FPGAs) can be considered “unique” in their security requirements and implementation options\, when compared to more conventional microcontroller and desktop processor systems. \nWe will briefly define what we mean by “security” in this context (both in terms of market requirements and attacker motivations) and what primitives can be used to achieve it. A review of the variety of potential attacks will be presented and we will spend some time on the peculiarities of FPGA-based systems by comparing them directly with other implementation strategies. Finally\, we will conclude with an answer to the question posed in the title. \nBiography \nMartin Thompson is a Senior Technical Specialist at ZF Engineering Solutions. He has spent over 30 years developing systems and algorithms for products in the automotive and aerospace domains. He enjoys working across the full range of software and electronics disciplines\, from desktop algorithm development to microcontroller\, DSP and FPGA code as well as electronic design\, PCB layout (and when the need arises\, soldering!). He specialises in optimisations of whole electronic systems\, based on a detailed understanding of the trade-offs across multiple domains. Particular highlights have included the development of very low-cost FPGA-based imaging and radar-systems. \nSince 2015\, Martin has been heavily involved in the cybersecurity of embedded systems and is currently the technical leader of an penetration-testing team with an embedded-system focus. He contributes to the Internet of Things Security Foundation Assurance Framework\, the Automotive Threat Matrix\, and is a member of the MITRE hardware CWE SIG and the CWE-RTL working group. Finally\, he spends some of his time researching novel side-channel attacks in pursuit of a PhD\, with the University of Durham. \nCloseDetailsIan Pearson \nPr. ESE\, Microchip Technology Inc. \n×Ian Pearson\nPr. ESE\, Microchip Technology Inc.\nPresentation: Leveraging Microchip Secure FPGAs \nThe foundation of a secure end product lies in the right choice of components. CRA requires a ‘Secure by Design’ approach to product development and support throughout the lifecycle. Microchip FPGA’s have a long history of secure FPGA’s designed to meet the most demanding of military applications but available to all \nBiography \nIan Pearson is a Principle Embedded Solutions Engineer with Microchip Technology covering FPGA\, Security and IoT. He is also the chair of the IoT Security Foundation – Security Assurance Framework Working Group.CloseDetailsMans Ahmadian \nChief Innovation Officer\, Sundance \n×Mans Ahmadian\nChief Innovation Officer\, Sundance\nPresentation: Hardware-Rooted Bitstream Security and Secure Manufacturing Workflow \nA Defense-Grade Implementation Using PolarFire FPGA on Sundance PCIe104N Platform As FPGAs become central to mission-critical defense and aerospace systems\, the security challenge has shifted. It is no longer enough to protect configuration data in the fi eld; we must also secure it during manufacturing\, programming\, testing\, and across the entire supply chain. When production is distributed across multiple facilities and third-party partners\, the FPGA bitstream becomes a high-value target\, vulnerable to interception\, overbuilding\, hardware substitution\, or reverse engineering. This talk presents a defence-grade secure provisioning workflow implemented on the Sundance PCIe104N platform\, built around the PolarFire MPF500T FPGA\, and explains how it establishes trust from silicon to system deployment. \nAt the heart of this approach is hardware-rooted security. PolarFire devices generate a unique\, silicon-derived identity using Physically Unclonable Functions (PUFs)\, meaning that no two FPGAs are electrically identical and no identity can be copied or cloned. During secure provisioning\, this identity is validated before any sensitive key material is transferred. The customer’s encrypted bitstream and User Encryption Key are generated inside their own trusted environment and securely delivered for programming using Microchip’s Secure Production Programming Solution. If authentication fails at any stage\, such as in a dummy FPGA impersonation attempt\, the process stops immediately. No keys are exposed\, and no firmware is released. What this workflow ultimately provides is confidence. Confidence that the hardware being programmed is genuine. Confidence that only the approved number of boards can ever be provisioned. Confidence that the bitstream cannot be intercepted\, modified\, or extracted through side-channel attacks. By combining controlled manufacturing\, independent validation\, hardware security modules\, authenticated encryption\, and built-in DPA countermeasures\, Sundance ensures customers receive fully tested\, securely programmed boards\, without any risk of supply-chain compromise or intellectual property leakage. Today\, I will walk you through how this architecture works and why it sets a scalable model for secure FPGA manufacturing. \nBiography \nMans Ahmadian serves as the Chief Innovation Officer at Sundance\, where he leads the architecture of next-generation\, high-density AI Systems-on-Modules (SoMs). In this role\, he directs the design of specialized AI Engines and systems otimized for low-power\, high-throughput inference in rugged environments. He is instrumental in bridging the gap between AI frameworks and SundanceDSP hardware. Additionally\, his work ensures the reliability of autonomous Edge AI platforms in mission-critical settings by optimizing SWaP (Size\, Weight\, and Power) solutions and integrating safety-critical\, “fail-safe” R&D workflows. \nThroughout his career\, he has been granted numerous patents for his innovations in image processing\, advanced camera systems and imaging sensor operations. His technical and commercial achievements have earned him several prestigious honors\, including the IET (Institute of Engineering and Technology) Innovation Award in software development\, the SMART::SCOTLAND Innovation Award\, and a Business Plan Competition win. These accolades are supported by a robust academic foundation\, including a PhD in Medical Image Processing\, an MSc in Biomedical/Medical Engineering\, and a BSc in Electronics from The University of Edinburgh\, and postgraduate certificates in Health Data Science and Big Data and AI. \nCloseDetailsPeter Trott \nStaff FAE\, Microchip Technology Inc. \n×Peter Trott\nStaff FAE\, Microchip Technology Inc.\nPresentation: Overview of prEN50767 : CRA Vertical Standard for FPGA/ASIC \nThe EU CRA requirements can be met via a presumption of conformity using horizontal and vertical harmonised standards. These standards are in development and will release very close to the enforcement date. In this session we will give some insight into what is coming in the vertical standard for FPGA/ASIC. The prEN50767 standard provides the requirements for FPGA/ASIC vendors to meet the Important Class I categorisation of FPGA/ASIC in the EU CRA. \nBiography \nPeter Trott is a Staff Applications engineer at Microchip with over 30yrs experience in the FPGA sector. He has extensive experience in both military and industrial design using FPGA’s. Peter is also a key member of the EU TC47x WG4 Trusted Silicon work group for FPGA/ASIC who are creating the prEN50767 harmonised standard relative to the Important Class I FPGA/ASIC with security features \nCloseDetailsDaniel Tee \nSenior Firmware (FPGA) Engineer\, Leonardo. \n×Daniel Tee\nSenior Firmware (FPGA) Engineer\, Leonardo.\nPresentation: Beyond Bitstream Encryption: FPGA Security for High-Assurance Systems \nField programmable gate arrays (FPGAs) are increasingly deployed in systems where failure or compromise is not an option – from defence and aerospace to critical infrastructure and advanced industrial platforms. In these high assurance environments\, security requirements extend beyond the protections normally offered by device vendors. Engineers must consider the broader context of threats\, deployment conditions\, and system level risk. \nBiography \nDaniel Tee is a Senior Firmware (FPGA) Engineer at Leonardo\, working within the product security team. He joined Leonardo as a graduate in 2022 after completing an integrated MEng in Electronics and Computer Science at the University of Edinburgh\, where he focused on a number of cybersecurity modules in his final year. Daniel now applies his interest in hardware security to developing robust FPGA‑based security solutions for customer‑driven\, mission‑critical applications. \nClose
URL:https://techworks.org.uk/event/fpga-frontrunner-microchip/
LOCATION:Microchip\, 720 Wharfedale Rd\, Winnersh\, Wokingham\, RG41 5TP
CATEGORIES:DESN,past-events,TechWorks
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BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260331T091500
DTEND;TZID=Europe/London:20260331T172000
DTSTAMP:20260331T091916Z
CREATED:20260116T172352Z
LAST-MODIFIED:20260331T091916Z
UID:4700-1774948500-1774977600@techworks.org.uk
SUMMARY:Designing the Future: Analogue Mixed Signal (AMS)
DESCRIPTION:As complexity accelerates\, designers face growing challenges in architecture\, design\, system scaling and workflow.\nFollowing our first event on Digital SoC Design in November\, this hands-on event brings together Analogue and Mixed Signal chip architects and designers to explore real-world pain points and application trends\, sharing lessons learned. During this event\, we will explore the key challenges and opportunities facing industry and identify potential collaboration to support industry growth. \nWe will explore three contemporary themes during the event\, with a plenary discussion following each one to discuss the topics raised and identify relevant actions going forward. \nRunning concurrently at the same venue\, TechWorks and UKESF are hosting a Chip Design Early Careers event which will bring together industry and emerging talent. The UKESF Digital Design – Early Careers track\, will give companies the opportunity to engage with up to 50 students and graduates: next-generation chip designers at the point where they are actively making career choices. Participants can speak directly to students and early-career engineers who want to learn more about chip design as a career\, and which organisations they can join and grow with. \nThe future of AMS Design \nHow is AMS design evolving and where are we compared with pure-play digital CMOS\nPotential themes: \n\nDesign for performance\, noise\, and integrity across PVT\nTrade-offs across process nodes and analogue scaling limits vs digital scaling; voltage range\, noise\, performance\, cost\nDesign migration\, IP integration and reuse\nDesign flow and productivity: How can automation and AI help?\nLayout challenges\, routing\, optimization and physical verification\nCo-simulation\, model abstraction and system-level verification\n\nSystem architecture and Integration \nMeeting system requirements while avoiding parasitics and interference is not just a circuit-level challenge. What are the current trends in system architecture and integration? \nPotential themes: \n\nSystem partitioning\, simulation and integration: Performance / Power / Area\nDigital-analogue interfacing and interconnect. Interference mitigation and isolation\nMulti-die integration: Yield reliability\, Power delivery\, Thermal management\nSignal integrity and noise coupling in advanced packaging\, 2.5D and 3D\nMulti-die mixed signal chiplets and heterogeneous integration\n\nApplication drivers for AMS Design \nMany emerging technologies are driving AMS innovation. What are the major application challenges pushing the frontier of analogue design today? \nPotential themes: \nFuture compute (AI\, Data centres\, High-performance compute) \n\n\n\nHigh-speed SerDes\, Photonic interconnect and Clock and Data Recovery\nPower delivery networks\, voltage regulation\, and monitoring\nAnalog and in-memory compute\n\n\n\nIoT\, connectivity\, med-tech and wearables \n\n\n\nLow-noise analogue sensor front ends\nEdge AI / Neuromorphic compute\nSensor – Edge AI integration\nLow power RF\nEnergy harvesting\nSecurity\n\n\n\n\n×Meet the students\n\nFrom RTL and verification to open-source silicon tapeouts\, these exceptional students are already making an impact in digital chip design \n James Ashie Kotey | Electronics & Computer Engineering\, University of Sheffield | IC Engineering Intern at EnSilica \nJames has contributed to commercial ASIC projects in RTL design and functional verification\, and has led three open-source silicon projects from concept to tapeout using open-source EDA tools and PDKs. \nCarys MacIntyre | Robotics Engineering (Integrated Master’s)\, University of Bath | Hardware Intern at Siemens EDA (Tessent Embedded Analytics) \nCurrently on a 12-month placement in digital RTL verification\, Carys is gaining hands-on verification experience alongside her master’s studies. \nCharlie Teare | Mechatronics & Robotic Systems (BEng with Year in Industry) \, University of Liverpool \nFollowing a placement with EnSilica’s digital design team\, Charlie continues collaborating with industry while completing his final year project focused on a fabric/interconnect generator. \nRonit Ravi | Electronic Engineering\, Imperial College London \nNow in his final year\, Ronit previously completed a placement in Design Verification at Siemens EDA and continues to collaborate during his master’s research. \nThis event provides students and early-career designers with direct exposure to professionals in digital chip design \,  embedding their learning and offering tangible inspiration for careers in the UK semiconductor sector. \n\n\n  \n\n\n\nTIME\nDETAILS\n\n\n\n\n09:15\nRegistration\n\n\n10:00\nTechWorks DESN Introduction – Scene setting & objectivesJillian Hughes\, Head of Semiconductors\, DESN & Charles Sturman\, CEO\, TechWorks\n\n\n \nThe Future of AMS DesignHow is AMS design evolving and where are we compared with pure-play digital CMOS\n\n\n10:10\nSystem-First Design for High-Performance Mixed-SignalAsad Ali\, Senior IC Architect\, Novamorphic\n\n\n10:30\nBridging the Verification Gap Between Digital and Analog IC Design Marcel Ahmedzai\, Application Engineer Architect\, Cadence\n\n\n10:50\nTop‑Down Approach to Mixed‑Signal VerificationGautham Sathyan\, Mixed Signal Modeling & Verification Engineer\, Cirrus Logic\n\n\n11:10\nVerifying AMS DesignsMike Bartley\, CEO\, Alpinum\n\n\n11:30\nDiscussion and CTA\n\n\n11:55\nSponsor talk: Lee Harrison\, Director of Product Marketing\, Tessent\, Siemens EDA\n\n\n12:00\nNetworking Lunch\n\n\n \nSystem architecture and IntegrationMeeting system requirements while avoiding parasitics and interference is not just a circuit-level challenge. What are the current trends in system architecture and integration?\n\n\n13:00\nStructured AMS migration: Device-level validation to layout closure with intelligent automationChris Yates\, Head of AI and Machine Learning\, Thalia\n\n\n13:20\nRevolutionizing Analog Layout Synthesis through GenAI and Machine Learning TechnologiesNeel Goplan\, Executive Director\, Technical Product Management\n\n\n13:40\nBeyond 1.8 V: Enabling Robust 3.3 V Interfaces in 28 nm CMOS and 7 nm FinFET with Overvoltage Tolerant Specialty I/OsBart Keppens\, Chief Business Development\, Sofics\n\n\n14:00\nDiscussion & Call to Action\n\n\n14:25\nBreak\n\n\n \nApplication drivers for AMS DesignMany emerging technologies are driving AMS innovation. What are the major application challenges pushing the frontier of analogue design today?\n\n\n15:10\nAMS from beamforming arrays to safety critical ASICsKonstantinos Glaros\, Associate Director – Analogue IC Design\, Ensilica Plc\n\n\n15:20\nAnalog Scan: A new frontier for Mixed-signal testVladimir Zivkovic\, Principal Product Engineer\, Siemens EDA\n\n\n15:40\nDiscussion & Call to Action\n\n\n16:05\nRefreshments and Networking\n\n\n17:00\nClose\n\n\n\n\nAgenda\n\n\n\n\n09:15Registration\n\n\n10:00TechWorks DESN Introduction – Scene setting & objectivesJillian Hughes\, Head of Semiconductors\, DESN & Charles Sturman\, CEO\, TechWorks\n\n\nThe Future of AMS DesignHow is AMS design evolving and where are we compared with pure-play digital CMOS\n\n\n10:10System-First Design for High-Performance Mixed-SignalAsad Ali\, Senior IC Architect\, Novamorphic\n\n\n10:30Bridging the Verification Gap Between Digital and Analog IC DesignMarcel Ahmedzai\, Application Engineer Architect\, Cadence\n\n\n10:50Top‑Down Approach to Mixed‑Signal VerificationGautham Sathyan\, Mixed Signal Modeling & Verification Engineer\, Cirrus Logic\n\n\n11:10Verifying AMS DesignsMike Bartley\, CEO\, Alpinum\n\n\n11:30Discussion and CTA\n\n\n11:55Sponsor talk: Lee Harrison\, Director of Product Marketing\, Tessent\, Siemens EDA\n\n\n12:00Networking Lunch\n\n\nSystem architecture and IntegrationMeeting system requirements while avoiding parasitics and interference is not just a circuit-level challenge. What are the current trends in system architecture and integration?\n\n\n13:00Structured AMS migration: Device-level validation to layout closure with intelligent automationChris Yates\, Head of AI and Machine Learning\, Thalia\n\n\n13:20Revolutionizing Analog Layout Synthesis through GenAI and Machine Learning TechnologiesNeel Goplan\, Executive Director\, Technical Product Management\n\n\n13:40Beyond 1.8 V: Enabling Robust 3.3 V Interfaces in 28 nm CMOS and 7 nm FinFET with Overvoltage Tolerant Specialty I/OsBart Keppens\, Chief Business Development\, Sofics\n\n\n14:00Discussion & Call to Action\n\n\n14:25Break\n\n\nApplication drivers for AMS DesignMany emerging technologies are driving AMS innovation. What are the major application challenges pushing the frontier of analogue design today?\n\n\n15:00AMS from beamforming arrays to safety critical ASICsKonstantinos Glaros\, Associate Director – Analogue IC Design\, Ensilica Plc\n\n\n15:20Analog Scan: A new frontier for Mixed-signal testVladimir Zivkovic\, Principal Product Engineer\, Siemens EDA\n\n\n15:40Discussion & Call to Action\n\n\n16:05Refreshments and Networking\n\n\n17:00Close\n\n\n\n\nAMS SpeakersDetailsChris Yates \nHead of AI and Machine Learning\, Thalia \n×Chris Yates\nHead of AI and Machine Learning\, Thalia\nStructured AMS migration: Device-level validation to layout closure with intelligent automation  \nAnalog and mixed signal IP migration using manual or in-house methods is rarely optimal and often slow and difficult. Y et migration remains necessary due to commercial and technical pressures. This session outlines practical ways to make migration predictable and efficient\, including automated device-level comparison\, early PPA assessment and intelligent layout adaptation. Drawing on recent project experience with machine learning-enhanced tools\, it demonstrates how AMS engineers can preserve performance while establishing a repeatable migration methodology. The approach combines traditional analog expertise with selective automation to reduce iteration cycles and improve reliability. The discussion will show where intelligent tools can augment\, not replace\, engineering judgment in critical design decisions. \nBiography \nChris Yates\, Vice President of Software Engineering\, leads development of EDA software for analog and mixed-signal design\, optimisation and technology migration. His work applies statistical methods\, mathematical optimisation and AI and machine learning to automate performance tuning and preserve circuit intent across process nodes. With a background in statistics\, mathematics and artificial intelligence\, he focuses on reducing design iteration time while maintaining predictability and robustness in advanced AMS flows. \nCloseDetailsMike Bartley \nFounder and CEO\, Alpinum \n×Mike Bartley\nFounder and CEO\, Alpinum\nVerifying AMS Designs \nWe will be investigating strategies for verifying AMS designs from test planning\, through test bench design and bring up\, to test generation\, closure and signoff. The talk will focus on practical\, best-practice verification solutions for a variety of designs\, so that the delegates can take away ideas that they can start using immediately. \nBiography \nMike started in software testing in 1988 after completing a PhD in Math\, moving to semiconductor Design Verification (DV) in 1994\, verifying designs (on Silicon and FPGA) going into commercial and safety-related sectors such as mobile phones\, automotive\, comms\, cloud/data servers\, and Artificial Intelligence. Mike built and managed state-of-the-art DV teams inside several companies\, specialising in CPU verification. \nMike founded and grew a DV services company to 450+ engineers globally\, successfully delivering services and solutions to over 50+ clients . The company was acquired by Tessolve Semiconductors in 2020 and Mike worked at Tessolve as SVP. \nMike started Alpinum in April 2025 to deliver a range of start-of-the art industry solutions. \nDetailsMarcel Ahmedzai \nApplication Engineer Architect\, Cadence \n×Marcel Ahmedzai\nApplication Engineer Architect\, Cadence\nBridging the Verification Gap Between Digital and Analog IC Design \nAs transistor geometries continue to shrink\, modern integrated circuit designs face escalating complexity that challenges the effectiveness and efficiency of traditional verification practices. Even at the block level\, the functional checks required to ensure correct behavior demand substantial time and resources\, and this burden increases dramatically when scaling to chip‑level and system‑level verification. In digital design\, these challenges have long been addressed through established verification methodologies\, dedicated verification engineers\, and standardized frameworks such as UVM. In contrast\, analog and mixed‑signal (AMS) design teams often lack a comparable verification mindset\, leading to late discovery of bugs\, costly respins\, and delays in time‑to‑market. This paper outlines the requirements and methodologies needed to elevate AMS verification to the maturity of its digital counterpart. By examining current gaps\, resource impacts\, and emerging best practices\, we provide a structured view of how systematic AMS verification can significantly reduce design risk and improve overall product quality. \nBiography \nMarcel Ahmedzai is an engineering architect at Cadence with a focus on mixed signal verification and is based in Bracknell\, England. Prior to Cadence he was a CAD engineer at Mitel Semiconductor and Zarlink Semiconductor. Marcel has been with Cadence for over 20 years and has a bachelor’s degree in Mathematics from the University of Hertfordshire. \nDetailsAsad Ali \nSenior IC Architect ‑ Analogue and Mixed Signal\,\nNovomorphic \n×Asad Ali\nSenior IC Architect ‑ Analogue and Mixed Signal\, Novomorphic\nSystem-First Design for High-Performance Mixed-Signal \nIn modern mixed-signal systems\, the analog figure-of-merit (FOM)\, capturing the signal-to-noise ratio (SNR) delivered per unit power over a defined bandwidth\, is a key determinant of overall system efficiency. As CMOS technology continues to scale\, reduced intrinsic gain\, lower supply voltages\, and increased variability are fundamentally limiting the ability of traditional analog design techniques to sustain competitive FOM\, directly impacting power budgets\, performance headroom\, and implementation cost. \nThis talk reframes the problem from a circuit-centric challenge to a system-level opportunity – a System First Approach. Rather than relying solely on device-level optimisation\, we examine architectural and system-partitioning strategies that shift performance dependencies. \nWe present practical\, system-driven design methodologies that mitigate technology-imposed analog limitations\, enabling next-generation mixed-signal platforms to achieve aggressive performance targets while improving power efficiency\, scalability\, and time-to-market in line with Power-Performance-Cost objectives. \nBiography \nAsad Ali\, Senior IC Architect at Novomorphic\, champions a System First approach to analogue and mixed-signal development. He has held leadership roles at Maxim Integrated\, OnSemi\, Dialog Semiconductor and LSI Logic\, leading the development of high-volume RFIC\, power and mixed-signal IC products from concept to production.DetailsKostas Glaros \nAssociate Director – Analogue IC Design\, Ensilica Plc \n×Kostas Glaros\nAssociate Director – Analogue IC Design\, Ensilica Plc\nAMS from beamforming arrays to safety critical ASICs \nIn large\, multi-channel SoCs\, AMS verification is essential for validating the integration of multiple analogue channels operating concurrently alongside complex digital signal processing. Safety-critical ASICs\, such as industrial and automotive controllers\, demand demonstrable vertical integration and traceable compliance with requirements. This talk discusses examples of AMS and DMS verification in such applications and some associated challenges. \nBiography \nKostas Glaros is an analogue/mixed-signal technical lead with EnSilica Plc. Over the past decade he has led teams bringing multiple mixed-signal ASICs from initial concept to mass production. He focuses on medical\, automotive\, and industrial control applications\, and has a keen interest on design methodology and tools. Kostas holds a PhD in low-power medical electronics from Imperial College London. \nDetailsGautham Sathyan \nMixed Signal Modeling & Verification Engineer\, Cirrus Logic \n×Gautham Sathyan\nMixed Signal Modeling & Verification Engineer\, Cirrus Logic\nBiography \nGautham Sathyan is part of the Mixed-Signal Modeling and Verification group at Cirrus Logic in the Newbury office. His work spans a wide range of responsibilities\, including early stage architectural modeling of mixed signal blocks\, requirements definition\, and establishing analog/digital boundary and the chip level schematic hierarchy. He is involved in netlisting and chip bring up DMS simulation\, SystemVerilog real number modeling of low level analog cells\, and to define and implement chip level AMS simulations. \nWith a background in analog design\, Gautham particularly enjoys the challenges of modeling and debugging complex mixed signal systems. Outside of work\, he spends most of his time running after his young children\, though he hopes to one day start learning to play Indian music on the guitar. \nDetailsVladimir Zivkovic \nPrincipal Product Engineer\, Siemens EDA \n×Vladimir Zivkovic\nPrincipal Product Engineer\, Siemens EDA\nAnalog Scan: A new frontier for Mixed-signal test \nDeveloping tests for designs with mixed-signal circuits has always been a bottleneck during IC product sign-off\, regardless of the application. This talk presents a revolutionary approach for creating efficient manufacturing mixed-signal tests that reduce test costs and test escapes. The methodology is called analog scan and requires DfT of a circuit-under-test (CUT) to inject stimulus signals and observe responses. The inserted circuitry is not placed in series with signal propagation paths\, and it is turned off in the mission mode. The control and output of the DfT circuitry is connected to test data registers (TDRs)\, typically placed outside the mixed-signal block under test. \nAnalog scan methodology brings multiple benefits. First\, there is a massive decrease of test cost\, since analog scan tests run orders of magnitude faster than a large majority of spec-based tests on ATE. Analog defect simulation also runs much faster than for spec-based tests. With appropriate automation\, top-level test development is also significantly accelerated. Defect coverage figures achieved with analog scan are usually higher than those obtained with functional tests. Lastly\, analog scan facilitates diagnosis of field returns. \nBiography \nVladimir Zivkovic is a principal product engineer for Analog Mixed-Signal and Defect-oriented Test at Siemens EDA. He graduated from the Faculty of Electrical Engineering at the University of Nis in Former Yugoslavia and obtained PhD in Electrical Engineering from the University of Twente\, the Netherlands. \nHe has more than 20 years of industrial experience in Mixed-signal DfT\, test flow automation\, test coverage analysis and AMS verification. His previous affiliations include Philips Research (Netherlands)\, NXP Semiconductors (Netherlands)\, D4T Systems (small startup company\, Netherlands)\, Nikhef/CERN (Netherlands/Switzerland)\, Cadence Design Systems (Scotland\, UK) and Infineon (Denmark). He is program committee member of IEEE European Test Symposium (ETS) and provided significant contribution during the development of IEEE 2427 standard for Analog Defect Modeling and Coverage. He is also vice chair of IEEE P1687.2 (Analog Test Access standardization) working group. \nDetailsLee Harrison \nDirector of Product Marketing\, Tessent\, Siemens EDA \n×Lee Harrison\nDirector of Product Marketing\, Tessent\, Siemens EDA\nBiography \nLee Harrison is Director\, Product Marketing\, with Siemens Tessent Division. He has over 25 years of industry experience working with Siemens Tessent DFT products\, with a focus on safety and security. Lee Received his BEng in MicroElectronic Engineering from Brunel University London in 1996. Lee presents regularly at industry conferences such as DAC\, ITC\, VTS\, ETS\, and DATE. \nDetailsBart Keppens \nChief Business Development\, Sofics \n×Bart Keppens\nChief Business Development\, Sofics\nBeyond 1.8 V: Enabling Robust 3.3 V Interfaces in 28 nm CMOS and 7 nm FinFET with Overvoltage Tolerant Specialty I/Os \nAs CMOS nodes scale\, designers face a widening gap between core capabilities and system-level requirements. While foundry GPIOs in FinFET and GAA processes typically top out at 1.8V\, many applications still demand 3.3V “Over-Voltage Tolerant” (OVT) interfaces for legacy compatibility and robust system integration. Conversely\, the rise of chiplet architectures introduces the opposite challenge: Die-to-Die (D2D) interfaces that must operate at specialty voltages below the typical GPIO range (1V or lower) to minimize power and maximize speed. \nThis presentation explores the design and ESD protection of these specialty interfaces. We examine the “3.3V in a 1.8V process” dilemma\, focusing on stacking techniques to maintain Safe Operating Area (SOA) during power sequencing and transient events. We then pivot to the unique requirements of chiplet interconnects. Unlike standard I/Os\, D2D interfaces require: (a) Specialized ESD: Traditional >2kV HBM protection is often overkill for D2D\, introducing excessive parasitic capacitance that limits bandwidth. (b) Thin-Oxide Integration: To achieve high speeds\, D2D circuits utilize sensitive thin-oxide transistors that are easily damaged without custom ESD clamps. (c) Area Efficiency: With thousands of required connections\, standard I/O pads consume prohibitive silicon area. \nAttendees will gain a practical framework for specifying and verifying both higher and lower voltage specialty I/Os\, with an emphasis on co-designing circuits and ESD to optimize PPA in modern\, heterogeneous systems. \nBiography \nBart Keppens received an engineering degree in electronics in 1996 and started his career at imec in Belgium. From 2002 he joined Sarnoff Europe\, solving on-chip ESD related problems for customers worldwide. After a management buy-out in June 2009\, Sarnoff Europe became ‘SOFICS – Solutions for ICs’ where Bart is responsible for global business development. Bart (co-) authored more than 40 peer-reviewed published articles on ESD protection. \nDetailsNeel Gopalan \nFounder and CEO Executive Director\, Technical Product Management\, Synopsys \n×Neel Gopalan\nFounder and CEO Executive Director\, Technical Product Management\, Synopsys\nRevolutionizing Analog Layout Synthesis through GenAI and Machine Learning Technologies \nThe rapid advancement of semiconductor technology necessitates innovative approaches to Analog Layout Synthesis\, a critical aspect in circuit design for FinFET and GAA nodes. This presentation introduces Industry’s First transformative potential of Generative AI (GenAI) and Machine Learning (ML) in automating and optimizing the analog layout process. We will discuss how GenAI can generate high-quality layout designs by learning from vast datasets of existing designs\, while ML algorithms enhance the efficiency of design creation and predictions. Furthermore\, we will delve into the role of AI in facilitating intelligent decision-making throughout the design process\, enabling adaptive responses to design constraints and objectives. By integrating these cutting-edge technologies\, we aim to significantly reduce design time\, improve layout quality\, and foster innovation in analog circuit design. This presentation will provide insights into the methodologies employed\, the challenges encountered\, and the future directions of analog layout synthesis in the context of AI-driven advancements. \nBiography \nNeel Gopalan is an Executive Director\, in the Products and Market group. Neel leads Technical Product Management for AMS tools including Custom Compiler\, PrimeSim and Characterization. Neel has been with Synopsys for the last 20 years; during this time he has been part of Custom Compiler Product Engineering team. He was an integral part of the team that built Custom Compiler along with all the collaterals needed for Custom Design. Neel and his team built industry’s 1st iPDK\, which is now the standard for PDKs in the industry. Neel now leads Analog Design Migration\, ASO and Layout Synthesis. Prior to Synopsys\, Neel worked for Cadence for 5 years \nDigital Design Early Careers SpeakersDetailsDave Sanders \nAssociate Fellow\, Rolls-Royce \n×Dave Sanders\nAssociate Fellow\, Rolls-Royce\nBiography \nDave Sanders is an Associate Fellow at Rolls-Royce specialising in the development of complex electronic hardware. He has 28 years of experience working in the electronics industry\, with 26 of those developing the safety critical microprocessors that form the heart of the Rolls-Royce control systems for both aerospace and non-aerospace applications. \nDave is a member of the European DO254 Users Group since 2012 and has contributed to various regulation working groups including co-authoring AMC 20-152A. He became a Fellow of the IET in 2018 and was awarded the Rolls-Royce Controls Gold Innovation Award in 2015 in recognition of the successful development of the sixth-generation safety critical microprocessor\, which has already accumulated over 30 million fault free flying hours. \nIn his spare time\, Dave is a keen runner and currently Lichfield Running Club Secretary.DetailsHaydn Povey \nFounder and CEO\, SCI Semiconductor \n×Haydn Povey\nFounder and CEO\, SCI Semiconductor\nBiography \nWith over 30 years experience in the technology domain Haydn has unparalleled experience in microprocessor IP\, cyber security\, and real world cyber-physical systems. \nHaving led the introduction of Arm Cortex-M processors he subsequently led the Processor Divisions security technologies\, including TrustZone & SecurCore. \nHe is a founder board member of the IoT Security Foundation. \nDave is a member of the European DO254 Users Group since 2012 and has contributed to various regulation working groups including co-authoring AMC 20-152A. He became a Fellow of the IET in 2018 and was awarded the Rolls-Royce Controls Gold Innovation Award in 2015 in recognition of the successful development of the sixth-generation safety critical microprocessor\, which has already accumulated over 30 million fault free flying hours. \nIn his spare time\, Dave is a keen runner and currently Lichfield Running Club Secretary. \nDetailsMichael O’Sullivan \nEngineering director\, Cadence \n×Michael O'Sullivan\nEngineering director\, Cadence\nBiography \nMichael O’Sullivan is an engineering director at Cadence with a focus on verification and is based in Edinburgh\, Scotland. Michael has been with Cadence for over 27 years with various roles in sales\, marketing and design services. \nPrior to Cadence he was a design engineer at S3 Group in Dublin\, Ireland and at Philips in Eindhoven\, The Netherlands. Michael has an Masters of Engineering Science from the National University of Ireland. \nDetailsLoay Qteet \nStaff Application Engineer\, Synopsys \n×Loay Qteet\nStaff Application Engineer\, Synopsys\nBiography \nLoay Qteet\, Applications Engineering\, Staff Engineer at Synopsys\, with six years of experience in the Electronic Design Automation (EDA) field. He specializes in physical design\, RTLIIGDS flow development\, and EDA applications of Implementation and AI. Loay has played a key role in supporting various customer\, helping them to achieve their goals effectively and ensuring that Synopsys products meet their evolving requirements.DetailsMatt Cossins \nEcosystem Development Manager\, Arm \n×Matt Cossins\nEcosystem Development Manager\, Arm\nBiography \nMatt Cossins is an Ecosystem Development Manager in Arm’s AI and Developer Platforms group\, where he supports the adoption of Arm-powered AI compute platforms through developer education\, enablement\, and collaboration between industry and academia. \nAn alumnus of the UKESF programme\, he holds an MEng in Electrical and Electronic Engineering from the University of Nottingham\, where his thesis focused on neuromorphic AI. He previously held engineering roles at Capgemini\, delivering software and embedded research projects for multiple clients\, and at Cambridge-based cellXica\, where he worked on embedded and RTL design for software-defined radio in 5G communications. \nMatt is a recipient of awards from organisations including the IET\, UKESF\, and Electronics Weekly\, and mentors engineering students through the Arkwright Scholarships Trust.DetailsCatriona Wright \nCo-founder\, Chipletti \n\nModerator \n\n×Catriona Wright\nCo-founder\, Chipletti\nBiography \nCatriona Wright is co-founder of Chipletti\, a Cambridge-based fabless semiconductor startup developing AI accelerators for physical AI systems that require low power\, high performance real-time operation within tight SWaP-C constraints. She works across strategy\, partnerships\, and operations while helping translate emerging AI compute needs into practical hardware solutions. \nCatriona has more than 25 years of experience delivering complex semiconductor products from concept through to production. Her career spans digital design\, program leadership\, and scaling multidisciplinary teams to deliver advanced silicon. Before founding Chipletti\, she held roles at both start-ups and large companies including Riverlane\, DisplayLink\, Cambridge Semiconductor\, TTPCom and Nortel Networks\, leading IC development programmes and coordinating cross-functional engineering teams. \nShe holds a First Class MEng in Electrical and Electronic Engineering from the University of Edinburgh and an MBA from The Open University. Catriona is passionate about building strong deep tech teams and helping grow the semiconductor ecosystem in the UK. She is also active in outreach\, running coding clubs for primary school students and encouraging more young people – particularly girls – to explore engineering. \nDetailsRaj Gawera \nChief Operating Officer\, UK Semiconductor Centre \n×Raj Gawera\nChief Operating Officer\, UK Semiconductor Centre\nBiography \nRaj has over 30 years of experience in the semiconductor field having held senior technical and commercial roles in semiconductor organisations spanning IP\, Fabless and IDM business models. He is now COO of the newly formed UK Semiconductor Centre – with an ambitious plan to strengthen the UK semiconductor ecosystem and grow international partnerships. \nIn his early career\, Raj was part of initial IEEE 802.11 team to define first WLAN standard in 1996 – a technology which has now shipped many billions of units. Raj also helped pioneer the first 3G data transmissions working with Motorola and others to demonstrate one of the first 3G video calls at the 3GSM show in 1998 – many years before 3G licences were awarded. \nRaj was a founder member of 3G technology startup UbiNetics (1999)\, that successfully exited in 2005 for over $120m USD. As part of that deal\, Raj joined CSR and ultimately took the role of VP Marketing where he was part of the team that acquired SiRF Technologies for $136m (2009) to add GPS technology to CSR portfolio. In 2012\, he helped sell CSR’s handset business to Samsung in a deal worth $310m for 310 staff. As part of Samsung\, Raj was promoted to VP heading up the SCSC division leading the silicon and software development for Samsung’s chipsets for over a decade\, providing connectivity technology that shipped in hundreds of millions of Samsung products. \nRaj has held a number of board positions including Chair of Cambridge Wireless and NED for CSA Catapult bringing experience and advice on the global semiconductor market.AwaitingNick McKeown \nProfessor \nAwaitingMahdieh Ghoddusi \nDirector of Delivery\, UKESF
URL:https://techworks.org.uk/event/designing-the-future-analogue-mixed-signal-ams/
LOCATION:Regents University London\, Inner Circle\, Regent’s Park\, London\, NW1 4NS
CATEGORIES:DESN,past-events,TechWorks
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DTSTART;TZID=Europe/London:20260326T140000
DTEND;TZID=Europe/London:20260326T150000
DTSTAMP:20260225T121430Z
CREATED:20260225T121430Z
LAST-MODIFIED:20260225T121430Z
UID:5764-1774533600-1774537200@techworks.org.uk
SUMMARY:IoTSF March Webinar
DESCRIPTION:‘Autonomous Compliance: Operationalising EU CRA and UK PSTI via Embedded Microservices’ and ‘Standards vs. Security: A Proactive Compliance Framework’\nPresentation 1: \nWith the UK PSTI in effect and the EU Cyber Resilience Act (CRA) approaching\, IoT manufacturers face a massive manual burden of vulnerability reporting and lifecycle governance. This session introduces a shift from static documentation to “Autonomous Compliance.” By replacing monolithic firmware with a modular\, microservice-based architecture\, the Microservice Store (MSS) and its integrated Security Manager (iSM) automate mandatory obligations—including SBOM generation\, 24-hour module-level incident notification\, fault-containment\, and targeted security updates. Murat Cakmak will demonstrate how device-level evidence and edge-to-cloud automation transform compliance from an engineering bottleneck into a seamless\, verifiable platform function. \nMurat Cakmak \nMurat is an expert in cybersecurity and computer science and has dedicated his career to addressing the complex challenges of IoT security and development. As the driving force behind Microservice Store\, Murat has been leading the charge in solving chronic security and production issues that have long hindered the IoT industry. Passionate about pioneering secure and scalable IoT solutions\, Murat continues to push the boundaries of what’s possible\, making security an essential and accessible standard for all. \nPresentation 2: \nDetails and bio to follow.
URL:https://techworks.org.uk/event/iotsf-march-webinar/
LOCATION:Webinar
CATEGORIES:IoTSF,past-events,TechWorks
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DTSTART;VALUE=DATE:20260326
DTEND;VALUE=DATE:20260327
DTSTAMP:20260204T134549Z
CREATED:20260204T133431Z
LAST-MODIFIED:20260204T134549Z
UID:5328-1774483200-1774569599@techworks.org.uk
SUMMARY:IMAPS-UK: MicroTech 2026 Conference
DESCRIPTION:IMAPS-UK: MicroTech 2026 Conference at King’s Conference Centre\, Hedge End\, Southampton – Thursday 26th March 2026 and Heterogeneous Integration – Explained! Workshop at University of Southampton on Wednesday 25 March 2026 \nThe IMAPS-UK MicroTech 2026 Conference on Thursday 26th March 2026 at the King’s Conference Centre\, Hedge End\, Southampton will focus on Driving Innovation in Semiconductor Packaging. The preliminary Conference Agenda includes state-of-the-art presentations on the advanced packaging market\, the UK Semiconductor Centre\, advanced packaging technologies including laser based processes\, heterogeneous integration\, interposers and 3D integration. \nMore Information and Registration: https://www.imaps.org.uk/events/microtech-2026-driving-innovation-in-semiconductor-packaging/ \nThe Conference is complemented by a Workshop on Heterogeneous Integration – Explained! On Wednesday 25th March 2026 at the University of Southampton. \nMore Information and Registration: https://www.imaps.org.uk/events/heterogeneous-integration-electronics/ \nPlease contact the IMAPS-UK Office (office@imaps.org.uk ) with any questions.
URL:https://techworks.org.uk/event/imaps-uk-microtech-2026-conference/
LOCATION:Southampton
CATEGORIES:past-events,Promoted
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DTSTART;TZID=Europe/London:20260325T140000
DTEND;TZID=Europe/London:20260325T150000
DTSTAMP:20260612T121627Z
CREATED:20260120T121646Z
LAST-MODIFIED:20260612T121627Z
UID:4711-1774447200-1774450800@techworks.org.uk
SUMMARY:Women in TechWorks Webinar with Madhuparna Datta
DESCRIPTION:Madhuparna Datta\nVLSI & EDA expert\nMadhuparna is an EDA and VLSI expert with over 25 years semiconductor industry experience\, who has worked across UK\, India and Sweden. She started off with PCB & FPGA design in Telecom at C-DoT\, and then moved to the EDA industry at Cadence Design Systems where she has worked across Silicon-Package-Board as well as Digital Design and Implementation product lines. Currently an AE Director with people management role along with overall technical lead for digital and signoff technical campaigns across the region. She has been involved with CPU\, GPU and system IP designs on all the advanced nodes including 16nm\, 7nm\, 5nm\, 3nm etc. Her passion for STEM made her a SWE Global Ambassador and founder of SWE Cambridgeshire affiliate in September 2022\, the first global SWE affiliate in UK\, which helps provide networking and professional development opportunities for local engineers. She has been elected to the SWE senate for FY26-28. Mentoring engineers along their career path led to her winning the Electronics Weekly “Women Leaders in Electronics Awards 2024” for ‘Mentor of the year’ along with being finalist for ‘Leader of the year’ and ‘Woman of the year’. She was invited by UK Department of Science\, Innovation and Technology (DSIT) to be part of the UK semiconductor delegation to India in March 2025 in recognition of her industry expertise. She is currently a trustee on the UKESF board due to great alignment on values and approaches towards encouraging more young people to study Electronics.
URL:https://techworks.org.uk/event/women-in-techworks-webinar-with-madhuparna-datta/
LOCATION:Webinar
CATEGORIES:past-events,TechWorks,WITW-Past Event,Women in TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/01/witw-webinar-0326.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260319T140000
DTEND;TZID=Europe/London:20260319T160000
DTSTAMP:20260312T201430Z
CREATED:20260217T123403Z
LAST-MODIFIED:20260312T201430Z
UID:5621-1773928800-1773936000@techworks.org.uk
SUMMARY:In-Cabin Sensing: Accelerating NCAP Compliance through Simulation
DESCRIPTION:A workshop on in-cabin scenario prioritisation\, NCAP protocols\, sensor modelling and simulation-based testing.Join the Sim4CAMSens2 project team on 19 March for an interactive workshop focused on the “red thread” of NCAP compliance. This is an exciting online workshop showcasing our latest in-cabin simulation progress and we need your expertise to shape what comes next. \nWe want to hear from developers\, buyers\, and integrators to identify the real-world pain points of physical testing and help prioritise critical Driver Monitoring and Occupant Monitoring System scenarios. Through live polling and breakout discussions\, your input will directly influence the development of repeatable simulation protocols for the next generation of vehicle safety. \n\n\n\n\nTIME\nDETAILS\n\n\n\n\n14:00\nWelcome \nIntroduction to the workshop\, objectives\, and agenda \nGunny Dhadyalla: Network Director\, AESIN\n\n\n14:05\nProject Overview: Simulation for Safer Cabin System \nOverview of the S4CS projects\, highlighting how simulation supports the development and validation of in-cabin sensing systems aligned with NCAP requirements. \nGunny Dhadyalla: Network Director\, AESIN\nDavid Briant : AV Product Manager\, Claytex\n\n\n14:15\nSensor Simulation Technologies \nDiscussion on sensor modelling\, virtual testing environments\, and the benefits of simulation for accelerating in-cabin sensing development. \nDr. Eliott London: Simulation Performance Engineer\, rFpro\nDavid Briant : AV Product Manager\, Claytex\n\n\n14:30\nScenario Development \nSimulation scenarios for Driver Monitoring Systems (DMS) and Occupant Monitoring Systems (OMS) aligned with NCAP protocols. \nDr. Eliott London: Simulation Performance Engineer\, rFpro\nGraham Lee: Principal Engineer\, SysElek\n\n\n14:40\nInteractive Poll\n \nParticipants vote on priority NCAP in-cabin sensing scenarios. \n\n\n\n14:45\nBreakout Discussions\n \nInteractive discussions on industry challenges\, validation needs\, datasets\, and opportunities for simulation in in-cabin sensing. \n\n\n\n15:30\nBreakout Feedback \nGroups share key insights and discuss common industry priorities. \n\n\n\n15:50\nConclusions and Next Steps \nSummary of key takeaways and future collaboration opportunities. \nGunny Dhadyalla– AESIN\n\n\n\n\nSpeakersDr. Elliot London\nSimulation Performance Engineer\, rFpro \nDr. Elliot London is Simulation Performance Engineer at rFpro – the leading simulation environment for development and testing of ADAS and autonomous vehicles. Elliot’s background is in physics and telecommunications engineering where he specialized in quantifying the accuracy of complex physical models and digital twins during his PhD. As a member of rFpro’s expert team\, Elliot leverages his expertise to develop and evaluate camera sensor models and to verify the accuracy of rFpro’s simulations for safety-critical ADAS and AV applications. \nDavid Briant\nAV Product Manager\, Claytex \nAfter graduating from Oxford Brookes\, David started at Claytex in 2015. Specialising in vehicle system modelling and multibody dynamics\, he worked in the team that developed VeSyMA suite of vehicle simulation libraries. He has experience in a variety of industries but predominantly in automotive and motorsport. In 2025 he transitioned to managing Claytex’s Autonomous Vehicle team who develop LiDAR and Radar sensor models and scenario control within rFpro’s AV elevate\, one of the highest fidelity autonomous vehicle simulation platforms on the market. \nDr. Graham Lee\nPrincipal Engineer\, Syselek \nGraham is a systems engineer with over 15 years’ experience working in industry and academia. He has specialist knowledge and expertise in the design\, development\, and testing of automated driving systems for on- and off-road applications. He has developed cooperative CAV applications in automotive (passenger car and mass transit)\, manufacturing (logistics)\, and agri-tech sectors.
URL:https://techworks.org.uk/event/in-cabin-sensing-accelerating-ncap-compliance-through-simulation/
LOCATION:Webinar
CATEGORIES:AESIN,past-events,TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/02/NEW-Techworks-site-featured-images-2026-02-17T123222.871.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260319T140000
DTEND;TZID=Europe/London:20260319T143000
DTSTAMP:20260224T171809Z
CREATED:20260224T171809Z
LAST-MODIFIED:20260224T171809Z
UID:5756-1773928800-1773930600@techworks.org.uk
SUMMARY:TechWorks AI Webinar with Bill Bauman
DESCRIPTION:Cybersecurity and governance for agentic AI\nA general overview of several elements of computational trust in the emerging era of Agent-Based Software and how Agent Vault addresses many core aspects of it. \nWe’ll discuss LLMs\, agentic memory systems\, RAG data\, cryptographically signed tools\, policy access\, human-in-the-loop\, and more. \nSome topics will be discussed within the context of demonstrating how Agent Vault implements the solution. We’ll also have an open conversation for questions\, feedback\, and group input. \nBill BaumanCo-founder and CEO\,  Ntur AI \nBill is the co-founder and CEO of Ntur AI\, a company focused on Agentic AI security and governance. He’s passionate about product development and delivery\, product-market fit\, and AI security. Bill’s background draws from a varied history of hands-on technical roles\, architecture\, marketing\, and product management.
URL:https://techworks.org.uk/event/techworks-ai-webinar-with-bill-bauman/
LOCATION:Webinar
CATEGORIES:past-events,TechWorks,TechWorks AI
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/02/NEW-Techworks-site-featured-images-2026-02-24T171000.492.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260227T140000
DTEND;TZID=Europe/London:20260227T160000
DTSTAMP:20260224T100834Z
CREATED:20260223T164525Z
LAST-MODIFIED:20260224T100834Z
UID:5743-1772200800-1772208000@techworks.org.uk
SUMMARY:Design and Verification of Silicon Chips
DESCRIPTION:Join us at the University of Oxford\, Thom Building\, Engineering Science Department\, Oxford OX1 3PJ\nWhether you’re curious about chip design\, interested in quality assurance\, or simply want to understand what happens before a processor hits the market. Come along to: \n\nConnect with the semiconductor industry\nLearn about career opportunities in verification and related fields\nSpeak to industry professionals and experts in the field\n\nOpen to network professionals and all staff and students. We especially welcome students from Physics\, Materials\, Computer or Engineering Sciences and Maths. \nNote\, there is no registration\, please just pop along on the day.
URL:https://techworks.org.uk/event/design-and-verification-of-silicon-chips/
LOCATION:University of Oxford\, Parks Road\, Oxford\, OX1 3PJ
CATEGORIES:past-events,Promoted,TechWorks,Women in TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/02/uoo-event.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260226T140000
DTEND;TZID=Europe/London:20260226T150000
DTSTAMP:20260220T183957Z
CREATED:20260220T183957Z
LAST-MODIFIED:20260220T183957Z
UID:5734-1772114400-1772118000@techworks.org.uk
SUMMARY:IoTSF Webinar: Quantum Safety in IoT
DESCRIPTION:The rapid proliferation of IoT devices across critical industries – e.g. automation\, healthcare\, smart cities – has introduced significant security challenges. Whilst current cryptographic protocols safeguard data today\, upcoming developments in quantum computing threaten to render these protections obsolete. And this threat is amplified by the actions of adversarial nation states looking to disrupt critical industries whilst engaging in hybrid warfare. \nThis presentation explains the implications of quantum computing on IoT ecosystems. \nBy the end of the session\, participants will have an understanding of quantum safety\, what it means for IoT\, and a sensible timeline of future actions. \nSteven Kennedy is a seasoned cybersecurity architect with deep expertise in securing some of the most complex networks in the world (e.g. Tier 1 telecoms\, hyperscale public cloud). After working for several years in Microsoft cybersecurity product management\, he took the plunge to become a self-employed consultant. Working with Blue Mesh Solutions\, he’s focused on using his knowledge of cryptography and quantum mechanics to help clients transition smoothly into the post-quantum future. \nRichard Brooks sent the first IoT hello world message as ‘hello 5G’ across a private 5G network in the UK. \nThis was all part of the UK Government’s 5G Accelerator Programme and involved collaborators from Hutchinson Ports\, 3 Telecom\, University of Cambridge\, the Port of Felixstowe and Blue Mesh Solutions. Exploratory use cases were developed including autonomous port haulage vehicles and our IoT based project to create digital twins of the large quayside container cranes. \nCritical strategic assets\, such as ports\, require hardened IoT estate encryption\, and testing new encryption technologies to present a harder\, quantum safe cryptography stance became the final outcome of the project\, leading to new quantum safe MQTT solutions and a best in class commercial partnership.
URL:https://techworks.org.uk/event/iotsf-webinar-quantum-safety-in-iot/
LOCATION:Webinar
CATEGORIES:IoTSF,past-events,TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/02/NEW-Techworks-site-featured-images-2026-02-20T183634.482.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260226
DTEND;VALUE=DATE:20260228
DTSTAMP:20260123T135400Z
CREATED:20251128T134254Z
LAST-MODIFIED:20260123T135400Z
UID:3742-1772064000-1772236799@techworks.org.uk
SUMMARY:ManuSec Europe Summit (IoTSF official partner event)
DESCRIPTION:#ManuSec Europe returns to Munich for its 9th Edition on 26–27 February 2026\, bringing together leading experts to tackle the growing range of cyber threats facing Europe’s manufacturers as their digital transformation accelerates. \nSenior cyber security leaders from some of the region’s largest manufacturers will share strategies and best practices for Protecting industrial networks\, driving organisational alignment to support IT/OT convergence\, building roadmaps for securing safety-critical systems and more. The event will outline practical steps manufacturers can take to safeguard their most valuable assets against evolving threats. \nJoin us in Munich this February to hear exclusive keynotes from top industry executives\, and take part in interactive panel debates and group discussions exploring industry frameworks and addressing sector-specific cyber security challenges. \nAsset-owning IoTSF members can use the code ‘IoTSF’ for a complimentary pass. Free passes are for full-time professionals in asset-owning organisations within the manufacturing sector. Members working for cybersecurity solution providers or consultancies aren’t eligible but can get 30% off with code ‘MP30’ on vendor passes. Attendance is limited to 4 per organisation.
URL:https://techworks.org.uk/event/manusec-europe-summit-iotsf-official-partner-event/
LOCATION:Munich Marriott Hotel City West\, Landsberger Strasse 156\,\, München\, 80687\, Germany
CATEGORIES:IoTSF,past-events,TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2025/11/NEW-Techworks-site-featured-images-2026-01-23T135248.420.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260224T140000
DTEND;TZID=Europe/London:20260224T143000
DTSTAMP:20260612T121719Z
CREATED:20260115T163919Z
LAST-MODIFIED:20260612T121719Z
UID:4691-1771941600-1771943400@techworks.org.uk
SUMMARY:Women in TechWorks Online Town Hall Event
DESCRIPTION:Our Women in TechWorks group will be hosting an online town hall webinar designed to bring members together and share important updates. This session will provide an opportunity to connect\, stay informed\, and engage with the broader community. \nDuring the webinar\, our Steering Group will share updates on current initiatives and highlight upcoming events and opportunities. Attendees will gain insight into what’s ahead and how to get involved in shaping the future of Women in TechWorks. \nHosted by Jillian Hughes\nHead of Semiconductors & DESN Network Director @ TechWorks and Women in TechWorks Founder \nJillian began her career with a recognised apprenticeship at National Semiconductor in Greenock\, Scotland\, completing her training in 1991. Over the next 15 years\, she built deep technical expertise in semiconductor equipment and process engineering\, working with major multinational companies including Seagate Microelectronics\, Motorola\, and Freescale Semiconductor. \nShe went on to lead operations across several specialised semiconductor businesses\, focusing on the manufacture\, refurbishment\, sale\, and service of high value capital equipment. \nIn April 2020\, Jillian was appointed NMI Director at Techworks\, the UK’s semiconductor trade association. In this role\, she drew on her extensive industry knowledge to support UK semiconductor companies and worked closely with industry and academia to raise the sector’s profile within Government. \nJillian later served as Chief Operating and Financial Officer at Dalrada Technology and Deposition Technology\, where she oversaw the development and manufacture of advanced capital equipment for emerging semiconductor markets. She has since returned to Techworks as Head of Semiconductors\, leading the Semiconductor Systems Design Network (DESN) and bringing together the UK’s dynamic chip design community to drive collaboration\, innovation\, and knowledge sharing. \nJillian also serves on the Board of Directors at Wafer Fab Solutions\, where she provides strategic business and financial guidance. \nRegister
URL:https://techworks.org.uk/event/women-in-techworks-online-town-hall-event/
LOCATION:Webinar
CATEGORIES:past-events,TechWorks,WITW-Past Event,Women in TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/01/NEW-Techworks-site-featured-images-2026-01-15T162120.028.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260209
DTEND;VALUE=DATE:20260210
DTSTAMP:20260127T173023Z
CREATED:20260127T173023Z
LAST-MODIFIED:20260127T173023Z
UID:4975-1770595200-1770681599@techworks.org.uk
SUMMARY:Synopsys: Accelerating Static ESD Simulation for Full-Chip and Multi-Die Designs with Synopsys PathFinder-SC
DESCRIPTION:
URL:https://www.synopsys.com/webinars/static-esd-simulation-multi-die.html?utm_source=techworks&#038;utm_medium=link&#038;utm_campaign=mds&#038;utm_content=pathfinder-us-wbnr_link_mul_wbn&#038;tags=Webinars#new_tab
LOCATION:Webinar
CATEGORIES:Member Event,past-events
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/01/SNPS4349513557-Pathfinder-webinar-v2-1200x1200px.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260205
DTEND;VALUE=DATE:20260206
DTSTAMP:20260120T123447Z
CREATED:20260120T123447Z
LAST-MODIFIED:20260120T123447Z
UID:4715-1770249600-1770335999@techworks.org.uk
SUMMARY:Synopsys: Building Efficient\, Secure\, and Scalable AI Systems with UALink
DESCRIPTION:
URL:https://www.synopsys.com/webinars/efficient-secure-ai-systems-ualink.html?utm_source=techworks&#038;utm_medium=link&#038;utm_campaign=ai&#038;utm_content=secure-ai-systems-ualink-wbnr_link_mul_wbn&#038;tags=Webinars
LOCATION:Webinar
CATEGORIES:Member Event,past-events,TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/01/sys0226.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260204
DTEND;VALUE=DATE:20260205
DTSTAMP:20260121T141433Z
CREATED:20260121T141433Z
LAST-MODIFIED:20260121T141433Z
UID:4768-1770163200-1770249599@techworks.org.uk
SUMMARY:Synopsys: Discussing Multi-Die Monitoring\, Embedded Test & Repair Flows with TSMC
DESCRIPTION:
URL:https://www.synopsys.com/webinars/multi-die-test-monitoring-flows.html?utm_source=techworks&#038;utm_medium=link&#038;utm_campaign=mds&#038;utm_content=tsmc-multi-die-wbnr_link_mul_wbn&#038;tags=Webinars#new_tab
LOCATION:Webinar
CATEGORIES:Member Event,past-events,TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/01/NEW-Techworks-site-featured-images-2026-01-21T140911.676.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260129T140000
DTEND;TZID=Europe/London:20260129T143000
DTSTAMP:20251127T183501Z
CREATED:20251127T183501Z
LAST-MODIFIED:20251127T183501Z
UID:3712-1769695200-1769697000@techworks.org.uk
SUMMARY:IoTSF January 2026 Webinar
DESCRIPTION:With Anupam Mediratta (Stealth Startup) – Building Adaptive IoT Security with AI-Generated Attack Simulation and Florian Lukavsky (SignPath) with all the CRA latest. \nIoT attacks have surged 400% year-over-year\, with AI-powered threats now bypassing 78% of traditional security measures.  \nManufacturing faces 906 unique threat signatures\, while critical infrastructure absorbed 71 billion attack attempts in 2024 alone.  \nTraditional detection methods are fundamentally broken. \nThis talk presents groundbreaking research that flips the script on IoT security: using AI to generate synthetic “hard-negative” attacks that train smarter\, more resilient detection systems.  \nWe combine diffusion-based generative models with pre-trained time-series foundation models to create attacks that mirror real-world APT tactics—from polymorphic malware to living-off-the-land techniques. \nOur approach specifically addresses the critical gap in current IoT security: the insufficient diversity of attacks in training data.  \nBy generating synthetic attacks that maintain benign statistical properties while executing malicious actions\, we prepare defences for threats that don’t yet exist in the wild. \nWith malicious APT groups targeting cyber-physical systems and “malware sentience” emerging through AI-powered autonomous attacks\, this research offers a critical path forward.  \nWe’re not just detecting known threats—we’re anticipating and defending against the AI-enhanced attacks of tomorrow. \nAnupam Mediratta bio: Anupam is an entrepreneur in the field of AI and Machine Learning. He was previously a PhD student (now a dropout) at the University of Edinburgh\, where he became interested in applying AI to IoT security. He has been an IoTSF professional member for the last few years\, which has helped him understand the space of IoT Security. He has also been a tech/ML lead at Microsoft\, Uber and a couple of startups. He also holds a few papers/patents in the field of AI.
URL:https://techworks.org.uk/event/iotsf-january-2026-webinar/
LOCATION:Webinar
CATEGORIES:IoTSF,past-events,TechWorks
ATTACH;FMTTYPE=image/jpeg:https://techworks.org.uk/wp-content/uploads/2025/11/NEW-Techworks-site-featured-images-96.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260129
DTEND;VALUE=DATE:20260130
DTSTAMP:20260109T102043Z
CREATED:20260109T101044Z
LAST-MODIFIED:20260109T102043Z
UID:4300-1769644800-1769731199@techworks.org.uk
SUMMARY:Vector UK new starters and graduates training day
DESCRIPTION:Do you have new starters or graduates joining your team? Could they benefit from a free Discovery Day focused on embedded electronic systems?\nVector is delighted to invite new starters and graduates in the automotive embedded electronics sector to our Engineering Discovery Day on 29 January in Birmingham. \nThis free\, in person event is designed to accelerate early career development by exploring both the fundamentals and the future of automotive electronics. Through expert led presentations and hands on demonstrations\, attendees will gain practical insight into the technologies shaping tomorrow’s vehicles. \nAgenda \n• History of Automotive Electronics\n• Automotive Software Architecture\n• Drive Forwards: Software Defined Vehicles\n• Testing and Validation\n• Driving Code Quality: Static & Dynamic Testing\n• “Measure It. If It’s Wrong Change It. When It’s Right Save It.” — The World of Automotive Diagnostics\n• Electric Propulsion\n• ADAS: Fit for the Future \nWhat You Can Expect \n• Insightful presentations delivered by industry specialists\n• Live technology demonstrations linked to each topic\n• Networking opportunities with peers\, engineers\, and sector professionals\n• A forward look at the innovations shaping the future of automotive engineering\nThis event is free of charge and held in person in Birmingham.\nWe look forward to welcoming the next generation of automotive engineering talent.
URL:https://techworks.org.uk/event/vector-uk-new-starters-and-graduates-training-day/
LOCATION:Vector Academy GB\, 2460 Regents Court\, Birmingham\, United Kingdom
CATEGORIES:AESIN,past-events,TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/01/NEW-Techworks-site-featured-images-2026-01-09T100615.962.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260121
DTEND;VALUE=DATE:20260122
DTSTAMP:20251209T162427Z
CREATED:20251209T162414Z
LAST-MODIFIED:20251209T162427Z
UID:3862-1768953600-1769039999@techworks.org.uk
SUMMARY:Secure Horizons 2026
DESCRIPTION:
URL:https://www.eventbrite.ie/e/secure-horizons-2026-tickets-1976167642616
CATEGORIES:IoTSF,past-events,TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2025/12/NEW-Techworks-site-featured-images-2025-12-09T161956.610.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20260115
DTEND;VALUE=DATE:20260116
DTSTAMP:20260112T173515Z
CREATED:20260112T173421Z
LAST-MODIFIED:20260112T173515Z
UID:4418-1768435200-1768521599@techworks.org.uk
SUMMARY:Synopsys: Demonstrating ParagonX: The Easiest Way to Analyze Parasitic Extraction and Unlock Design Performance
DESCRIPTION:
URL:https://www.synopsys.com/webinars/paragonx-ic-layout-parasitics-analysis.html?utm_source=techworks&#038;utm_medium=link&#038;utm_campaign=ns&#038;utm_content=paragonx-wbnr_link_mul_wbn&#038;tags=Webinars#new_tab
LOCATION:Webinar
CATEGORIES:Member Event,past-events,TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2026/01/NEW-Techworks-site-featured-images-2026-01-12T173103.097.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260113T160000
DTEND;TZID=Europe/London:20260113T163000
DTSTAMP:20260616T113653Z
CREATED:20251218T171900Z
LAST-MODIFIED:20260616T113653Z
UID:4224-1768320000-1768321800@techworks.org.uk
SUMMARY:Women in TechWorks Fireside Chat with Alisha Dattani
DESCRIPTION:Women in TechWorks hosts its first fireside chat.\nThe January 2026 guest will be Alisha Dattani – CEO of FMXA\, “The award-winning go-to-market\, positioning\, and brand agency humanizing technology”.
URL:https://techworks.org.uk/event/women-in-techworks-fireside-chat-with-alisha-dattani/
LOCATION:Webinar
CATEGORIES:Past Event,past-events,TechWorks,Webinar,WITW-Past Event,Women in TechWorks
ATTACH;FMTTYPE=image/webp:https://techworks.org.uk/wp-content/uploads/2025/12/NEW-Techworks-site-featured-images-2025-12-18T171307.352.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260113T140000
DTEND;TZID=Europe/London:20260113T150000
DTSTAMP:20251128T135550Z
CREATED:20251128T135436Z
LAST-MODIFIED:20251128T135550Z
UID:3746-1768312800-1768316400@techworks.org.uk
SUMMARY:Inaugural Quantum Safe IoT special interest group (SIG) meeting
DESCRIPTION:IoTSF Quantum Safe IoT SIG meeting – January 2026. Details\, notes and meeting links are available via the IoTSF members’ platform.
URL:https://techworks.org.uk/event/inaugural-quantum-safe-iot-special-interest-group-sig-meeting/
LOCATION:Webinar
CATEGORIES:IoTSF,past-events,TechWorks,Webinar
ATTACH;FMTTYPE=image/jpeg:https://techworks.org.uk/wp-content/uploads/2025/11/NEW-Techworks-site-featured-images-2025-11-28T135146.100.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/London:20251218T140000
DTEND;TZID=Europe/London:20251218T143000
DTSTAMP:20251205T094250Z
CREATED:20251128T141435Z
LAST-MODIFIED:20251205T094250Z
UID:3749-1766066400-1766068200@techworks.org.uk
SUMMARY:TechWorks-AI webinar: ‘Agentic AI Security Challenges’
DESCRIPTION:With Dr. Madeline Cheah – Associate Technology Director\, Cambridge Consultants\n‘Agentic AI Security Challenges’ : As we delegate more operational decision-making to machine-driven systems\, we expand the threat surface beyond conventional cyberattacks to include AI-specific risks – subtle objective drift\, emergent misalignment\, model-driven manipulation\, and adversarial weaponisation at scale. \nThis talk examines the security and assurance challenges inherent in granting AI systems real agency\, highlights plausible failure modes and rapid-escalation scenarios\, and outlines practical strategies for maintaining control\, observability\, and resilience in autonomous AI deployments. \nBio: Madeline is a cybersecurity and AI assurance specialist with nearly 15 years of experience across autonomous systems\, IoT\, automotive\, and future mobility. \nShe leads work on AI security testing and autonomous cyber-defence for industry and government clients\, with deep expertise in securing complex\, opaque\, and safety-critical systems. \nMadeline has been recognised as one of the Top 100 Great Women in the British Car Industry and an Autocar Driver of Change in Digital Innovation for her contributions to autonomous vehicle security. \nShe has contributed to platforms including the World Economic Forum and Black Hat USA\, appeared in national media\, and published multiple peer-reviewed papers. She holds a PhD in automotive cybersecurity\, an MSc in forensic computing\, and a BSc in biochemistry.
URL:https://techworks.org.uk/event/techworks-ai-webinar-agentic-ai-security-challenges/
CATEGORIES:past-events,TechWorks,TechWorks AI
ATTACH;FMTTYPE=image/jpeg:https://techworks.org.uk/wp-content/uploads/2025/11/NEW-Techworks-site-featured-images-2025-11-28T141046.573.jpg
END:VEVENT
END:VCALENDAR