RISC-V: The Open Era of Computing Calista Redmond CEO,

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RISC-V: The Open Era of Computing Calista Redmond CEO, RISC-V International

Our world is shaped through positive inventions and negative disruptions through advances in technology and new business models through economic and political setbacks When the playing field is weighted by the interests of only a few, it’s time for the game to change

Reshaping history is about removing barriers, coming together, and taking a united approach

Welcome to the open era of computing. RISC-V is the free and open Instruction Set Architecture Driven through open collaboration Enabling freedom of design across all domains and industries Cementing the strategic foundation of semiconductors

Disruptive Technology Barriers Legacy ISA RISC-V ISA Complexity 1500 base instructions Incremental ISA 47 base instructions Modular ISA – Limited Free – Unlimited Free Design ecosystem Moderate Growing rapidly. Numerous extensions, open and proprietary cores Software ecosystem Extensive Growing rapidly Design freedom License and Royalty fees

Industry innovation on RISC-V Hardware Hardware – RV32, privilege modes, interrupts – Hardware Complexity – RV32 – Hardware ISA Definition Test Chips Proof of Concept SoCs Minion processors for power management, communications, Software Tests Software Bare metal software 2010 – 2016 2017 – 2018 IoT SoCs Microcontrollers Software RTOS Firmware 2019 – 2020 – RV64, multi-heart CPUs, vectors, bit manipulation, hypervisors, debug mode – AI SoCs Application processors Software Linux Drivers AI Compilers 2021

Unconstrained Opportunity RISC-V Business Model Barriers removed Collaboration partners Design risk Cost of entry Development Supply chain Partner limitations Supply chain Expanded markets Expanded geographies 7

Beyond removing barriers, RISC-V fuels our community to seize growing opportunities

By 2025, 40% of application-specific integrated circuits (ASICs) will be designed by OEMs, up from around 30% today. Custom ICs Based on RISC-V Will Enable Cost-Effective IoT Product Differentiation Gartner, June 2020 Source: Gartner

RISC-V’s open model will spur adoption by cloud service providers and streamline resources for chip vendors Source: Gartner ID: 46523 C

30 billion connecte d and IoT devices demand security and custom processors Source: Strategy Analytics

Rapid RISC-V growth led by industrial 62.4 billion RISC-V CPU cores by 2025 Semico Research predicts the market will consume 62.4 billion RISC-V CPU cores by 2025, a 146.2% CAGR 20182025. The industrial sector to lead with 16.7 billion cores. Source: Semico Research Corp

Nearly a quarter of designs incorporate RISC-V Wilson Research Group/Siemens found that 23% of ASIC and FPGA projects incorporated RISC-V in at least one processor in a double-blind 2020 study.

RISC-V IP, SW, and Tools build momentum The total market for RISC-V IP and Software is expected to grow to 1.07 billion by 2025 at a CAGR of 54.1% Source: Tractica

Cloud and data center top providers like Amazon and Alibaba are designing their own chips. Automotive is transforming from autonomous vehicles to infotainment to safety, the whole vehicle relies on innovative electronics. Industrial IoT incorporating artificial intelligence in manufacturing and industrial processes. Mobile and wireless continue rapid evolution with each generation of hardware and increased capability. Consumer and IoT devices bring incredible innovation and volume with billions of connected devices in the next 5-10 years. Memory was largest semiconductor category by sales with 158 billion in 2018, and the fastest-growing. RISC-V adoption spans industrie s and workload s

More than 1,500 RISC-V Members across 70 Countries 4 Systems 94 Chip SoC, IP, FPGA ODM, OEM 4 I/O 13 Industry Memory, network, storage Cloud, mobile, HPC, ML, automotive 12 Services 81 Research Fab, design services Universities, Labs, other alliances 40 Software 1,000 Individuals Dev tools, firmware, OS March 2021 RISC-V engineers and advocates In 2020, RISC-V membership grew 133% 16

Dedicated Community Services Fab, Chip SoC, IP, design services FPGA I/O Memory, Universities and Research network, storage Industry cloud, Software Dev mobile, HPC, ML, automotive tools, firmware, OS Press and Analysts Investors and Funding sources Individual Advocates 17

Incredible industry progress The European Processor Initiative finalized the first version of its RISC-V accelerator architecture and will deliver test chip in 2021. The RIOS Lab announced PicoRio, an affordable RISC-V open source smallboard computer available in 2021. Imperas announced first RISC-V verification reference model with UVM encapsulation. Seagate announced hard disk drive controller with high-performance RISC-V CPU. GreenWaves ultra-low power GAP9 hearables platform enabling sceneaware and neural network-based noise reduction. Alibaba unveiled RV64GCV core in its Xuantie 910 processor for cloud and edge servers. Microchip released the first SoC FPGA development kit based on the RISC-V ISA. Andes released superscalar multicore and L2 cache controller processors. StarFive released the world’s first RISC-V AI visual processing platform SiFive unveiled world’s fastest development board for RISC-V Personal Computers. Micro Magic announced an incredibly fast 64-bit RISC-V core achieving 5GHz and 13,000 CoreMarks at 1.1V.

3,000 individuals in 60 RISC-V work groups and committees 312 RISC-V solutions online RISC-V is the foundation of the open era of computing including cores, SoCs, software, tools and developer boards. 31 local RISC-V community groups, with more than 5,700 engineers 34k followers on social media and We’re in the news! We have so far this year, we have participated in 150 news articles along with amplifying RISC-V community news.

Engaging the community in work that matters We are defining Profiles to standardize a set of instructions and state. If an implementer then they should be able to run the same instructions on multiple implementations and get the same results. The initial Profiles are RVA20 and RVM20 for extensions ratified in 2019 and RVA22 and RVM22 for extensions ratified in 2021 including vector, crypto scalar, and bit manipulation. We are defining Platforms to be a standard set of features for a complete execution environment (like Linux or FreeRTOS). If you adhere to a Platform then you should be able to run the same executable on 2 different platforms and get the same results (excluding timing differences, etc.) Platforms will include things like Profiles, Device tree, ABIs, etc. 2021 holds an exciting set of new extensions for vector processing, cryptography, bit manipulation, packed decimal, trusted execution environment, virtual memory, and more enabling sectors and industries from embedded to ML to HPC and everything in between. In addition, we are revamping our documentation with a new look, fully adopting AsciiDoc, enhancing the specifications with glossaries and indexes, and common formal diagram insertion. We have a number of programs underway RISC-V Development Partners - institutions (CAS, RIOS, IITM) help develop ecosystem software for extensions RISC-V Labs - institutions build labs with RISC-V based board and servers to both run regression testing and to provide the community with an area to sandbox RISC-V Seed program - seed 1000 boards to academia and early adopters by June 2022 Joint working group on Coherence between Chips

Technical Deliverables Guard against fragmentation Build technical deliverables Work groups Learning Talent Multi-level online learning Connecting universities with labs, tests, and curricula RISC-V Training Partners Compliance Verification Testing and compliance suites Compliance tests Advocacy Technical advocate program Local developer groups and events RISC-V Ambassadors Geo and industry alliances Visibility Constant drumbeat through press, media, and original content Industry and regional events Dedicated RISC-V events Marketplace Exchange Online marketplace of providers, products, and services Technical developer forums RISC-V delivers incredible member support

RISC-V is a community of passionate, dedicated, and invested stakeholders As individuals As companies As universities As public institutions and nonprofits As nations As one Global, connected movement Build RISC-V into your company strategy, and your personal mission 22

“The future of American industry depends on open source tech, RISC-V is gaining traction in the hardware manufacturing space throughout the world, because it lowers barriers to entry and increases chip development speed.” -- Wired “Though the architecture was created a decade ago by university professors, RISC-V has been building its ecosystem for years and has started to hit its stride with big licensees like Western Digital, SiFive, and even NVIDIA itself.” -- VentureBeat “If it succeeds, RISC-V could lower the cost of developing a new chip and help companies of all sizes to build exactly the processors they need.” -- Engadget

www.riscv.org @risc v @Calista Redmond risc-v-international calistaredmond Thank you

Benefi t of joining RISC-V Accelerate technical traction and insight Contribute technical priorities, approaches, and code Gain strategic and technical advantage Increase visibility, leadership, and market insight Fill and increase engineering skills, retain and attract talent Build innovation partner network and customer pipeline Deepen, engage, and lead in local and industry developer network Showcase RISC-V products, services, training, and resources

Membership options Premier Member Benefits Strategic Member Benefits Community Member Benefits Premier Member Requirements Strategic Member Requirements Community Member Requirements Community level benefits plus Use of RISC-V Trademark for commercialization Board seat and Technical Steering Committee seat included for 250k level Technical Steering Committee seat included for 100k level Solution listing on RISC-V Exchange 4 case studies a year, 2 blogs per month 2 social media spotlights per month Spotlight member profile Inclusion in event promotions Membership open to any type of legal entity, not open to individual members 250k Annual membership includes Board seat and Technical Steering Committee seat 100k Annual membership includes TSC seat Community level benefits plus Use of RISC-V Trademark for commercialization 3 Board reps elected for tier, includes Premier members that do not otherwise have a board seat. May lead workgroup and/or committee Solution listing on RISC-V Exchange 1 case study a year, 1 blog per month 1 social media spotlight per month Membership open to any type of legal entity, not open to individual members Annual membership based on employee size 35k for 5,000 employees 15k for 500-5,000 employees 5k for 500 employees 2.5k for 10 employees / company 2 years old Accelerated development, reduced risk through open source, ratified ISA. May participate in workgroups, influence strategy and adoption 6 support programs in Technical Deliverables, Compliance, Visibility, Learning, Advocacy, and Marketplace 1 voting Academic Board rep, 1 non-voting Community Board rep Member listing on RISC-V website Event registration discount Membership open to academic institutions, non-profits, and individuals not representing a legal entity No annual membership fee 26

Board of Directors (BOD) Technical Steering Committee (TSC) ISA Infrastructure Subcommittee ・Functional Safety ・E2E Data Integrity ・Diagnosability ・Recoverability ・PCIe error reporting ・Data poisoning containment ・Error recording ・Error reporting ・Error isolation Architecture tests TG Simulators TG Documentation Formal Model TG SOC Infrastructure Subcommittee Performance Subcommittee Debug revision TG Trace TG Nexus TG Functional Safety SIG Unprivileged SC Security Response TG ・Linux class OSs ・RTOSs ・DMA ・Multi-processing ・Hypervisors ・JITs ・Overlays ・IOMMU, Buses ・Bootloaders ・Distro coord/build/rel ・*BIs ・Profiles ・MCU profile IMAFDCQ extensions Memory Model ・Opcodes ・L extension Cache Mgmt (CMO) TG Tool Chain & Runtimes Subcommittee EABI TG Code Speed SIG HPC SIG AI/ML/NLP TG DB/App TG Managed Runtime TG ・Native code ・GCC ・LLVM ・Optimizer ・Profiler ・gdb ・Libraries ・Benchmarks ・Libraries ・Benchmarks ・Frameworks (Spark, Hadoop, etc.) ・Benchmarks ・Virtual machines ・Interpreters ・JITs Code Size Reduction TS Embedded Subcommittee B (bitmanip) TG J (jit) TG P (packed dec) TG Zfinx TG V (vector) TG Alt FP Formats TG Config TG Toolchain improvements Further extensions Technical Groups Privileged SC Testing Subcommittee Profiles & Platform Subcommittee Verticals SC RASD (Recoverability, Availability, Serviceability Dependability) TS Crypto TG Software Standing Committee Horizontals (Attributes) Standing Committee Security Subcommittee Chairs Hypervisor TG Virtual Memory TG Fast Interrupts TG Trusted Exec (TEE) TG interrupts Privileged Spec 1.11 ・Automotive ・Consumer ・Datacenter ・Energy ・Finance ・Communications ・Defense SC: Standing Committee TS: Technical Subcommittee TG: Task Group SIG: Special Interest Proposed Completed Area of Responsibility

RISC-V Technical Steering Committee to govern technical strategy, build technical leadership and best practice decision-making RISC-V Learn encompassing university curricula, online learning and Training Partners RISC-V Ambassadors and Alliances to reach beyond our community for industry collaboration, leadership, and technical engagement. RISC-V Exchange to showcase RISC-V cores, SoCs, developer boards, software, tools and other RISC-V launched new programs to support member success

From Embedded to Enterprise The EU Horizon 2020 De-RISC platform for aerospace has achieved several hardware and software milestones since it began a year ago. The School of Computing at the Tokyo Institute of Technology developed a portable Linux RISC-V SoC design in just 5,000 lines of Verilog. Huami released a new RISC-V based AI chip for biometric wearables CHIPS Alliance announced enhancements to the RISC-V SweRV Core EH2, the world’s first dual-threaded, commercial, embedded RISC-V core and SweRV Core EL2, an ultra-small, ultra-low-power RISC-V core. Alibaba unveiled its RISC-V RV64GCV core that will be used for its Xuantie 910 processor aimed at cloud and edge servers.

April 22-23, 2021 9am - 17pm Japan Standard Time Free Registration Program Slack: risc-v-association.slack.com SiFive and Andes who are leading RISC-V IP products. DTS-Insight, a descendent of a part of Yokokawa Electric, is presenting their RISC-V system solution capabilities both in hardware and software. Espressif, presents their new RISC-V based WiFi BTLE chip. Synopsis presents RISC-V based AI accelerator. Effinix, an FPGA startup, is presenting their RISCV solutions in their FPGA product. GigaDevice is presenting their award-winning flash microcontrollers. Syntacore is presenting their open-source and commercial RISC-V solutions. Cloudbear is presenting the use case of their RISC-V processor IP. In the meanwhile, here in Japan, Renesas Electronics Corporation announced the adoption of RISC-V. Japanese researchers and companies are beginning to lead in software and hardware architectural research in RISC-V security. Google is promoting open source EDA tools, open source process development kits (PDK), open source free shuttles. We see corresponding contributors in Japan who are presenting.

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