Arm Ecosystem Collaborates on Standards to Enable a Thriving Chiplet Market
A key challenge our partners are consistently looking to solve is: How can we continue to push performance boundaries, with maximum efficiency, while managing costs associated with manufacturing and yield? Today, as the ever more complex AI-accelerated computing landscape evolves, a key solution emerging is chiplets.
Chiplets are designed to be combined to create larger and more complex systems that can be packaged and sold as a single solution, made of a number of smaller dies instead of one single larger monolithic die. This creates interesting new design possibilities, with one of the most exciting being a potential route to custom silicon for manufacturers who historically chose off-the-shelf solutions. The excitement is focused on the concept of composability โ putting together a bespoke complete solution by reusing a set of existing or standardized chiplets, each optimized for cost-performance. This reusability and standardization can lead to a multi-vendor chiplet supply chain that could enable both new and existing players to access performance and differentiation opportunities.
Delivering the common frameworks required to accelerate the chiplet market
To realize this opportunity, designers will need alignment on many non-differentiating choices in chiplet partitioning, and the associated impact on interface standardization. A common framework is needed to enable the next generation of silicon designers, and requires significant and focused collaboration and investment. Today Iโm excited to provide updates on two new initiatives that will help to deliver this framework:
- Arm Chiplet System Architecture (CSA): Arm and a group of more than 20 partners are analyzing and defining optimal partitioning choices for chiplet-based systems. The goal is to develop the Arm Chiplet System Architecture (CSA), which will enable greater reuse of components (physical design IP, soft IP etc) between multiple suppliers. The group covers multiple market segments from mobile to automotive to infrastructure, exploring how we can better standardize around system design choices for different chiplet types, such as how to partition an Arm-based system across multiple chiplets, or their high-level properties (e.g. requirements for system memory or a Root of Trust).
- Updating AMBA to standardize protocols for chiplets: For more than 27 years, AMBA has been a foundational open industry standard. AMBA specifications like AXI and CHI have been used in billions of devices.
- AMBA CHI is high speed, credited, and packetized, which makes it ideal for chiplets. The previously announced AMBA CHI C2C specification leverages the existing on-chip CHI protocol and defines how it is packetized, enabling it to be transported chip(let)-to-chip(let). Weโre pleased to share today that the open specification is now formally released, after collaboration with a diverse set of partners across the industry. You can read more in this blog.
- There are several existing AXI-based designs that are critical to enable in chiplets. Weโve committed to deliver an open AXI C2C specification that can be adopted by silicon vendors currently enjoying the benefits of AXI in their single chip designs.
Complex Problems Need Collaboration
Our investments into AMBA and CSA will enable partners to decompose an Arm-based system across multiple chiplets, in the same way a monolithic chip is composed of IP blocks. Alongside these new standards, there are several Arm-specific and industry-wide layers we need to continue to collaborate on:
- Physical layer: Industry standards. such as UCIe, are needed to define the physical layer for transporting data between chiplets within a package (for AMBA, PCIe and other protocols) and other non-differentiating aspects of system aggregation from chiplets.
- Protocols: We expect industry standard protocols, such as PCIe and CXL, alongside on-SoC interconnect protocols like AMBA, to enable the market to aggregate well-defined peripherals from across a motherboard into a package.
- High-level properties and partitioning: For Arm-based systems using AMBA protocols, there is an infinite flexibility to disaggregate the SoC into chiplets. CSA will help the Arm-ecosystem to reach consensus around the most valuable partitioning schemes to reduce fragmentation.
A diverse chiplet market, built on Arm
While mass market adoption of chiplets is likely to take many years to reach mass-market adoption, weโre excited by the potential these standards have to expedite the journey towards chiplet-based systems. The flexibility of the Arm platform is enabling the emerging chiplet ecosystem today โ itโs a natural progression in our heritage of enabling partners to build custom silicon solutions quickly with the flexibility they need. As we continue to deliver the compute, performance efficiency and software solutions the industry demands in an increasingly complex landscape, we are bringing the ecosystem together around new critical standards and programs, like the recently announced Arm Total Design, that will enable a thriving, diverse chiplet ecosystem built on Arm.
To get involved in Arm CSA, partners can reach out to csa-feedback@arm.com.
Any re-use permitted for informational and non-commercial or personal use only.
Editorial Contact
Latest on Twitter
Congratulations to Tamika Curry Smith, our Chief DEI Officer who has been chosen as one of @SavoyNetwork's Most Influential Executives in Corporate America for 2024. ๐
The honor recognizes Tamika's commitment to community, leadership, and success: https://okt.to/2NvDOZ
This #EarthDay, we're celebrating our collaboration with @UNICEF, to unlock the life-changing potential of technology in Malawi.๐ง
Our investment has helped UNICEF install two water supply systems, helping provide 11,000 people with access to safe water and sanitation services.
ISA parity isย accelerating silicon and software deploymentย in automotive!ย ๐๐จ
ย
๐ย At #ew24 we showcased what this looks like in practiceย via virtual platformsย with our Neoverse-based cloud instances and new Arm AE IP, which brings almost 100% ISA parity. https://okt.to/cjVaFN
The future of automotive is here.ย ๐
ย
Hear from Dipti Vachani on @IBDinvestors as she shares details on the game-changing performance and functional safety features of our new Armv9-based AE processors and server-class Neoverse technology:ย https://okt.to/WVtw58
AI is expected to increase data center power consumption 3๏ธโฃx by 2030.
To offset this, hyperscalers like Amazon and Google turn to Arm Neoverse to reduce power without compromising performance.
That's why the future of AI is built #onArm. https://okt.to/LPVFWd
We're working with our partners @Simprints, @Gavi and @_GHSofficial to enable healthcare equity in Ghana.
Built #onArm, Simprints technology is enabling vaccine equity by making it easier to verify vaccine delivery by individual:ย https://okt.to/MIcgxu
If Arm technology is in there, then the future will be too.
Our energy-efficient compute platforms are foundational to the world's technology and AI computing, shaping how we work, play and connect.
That's why the future is built #onArm. https://okt.to/M9wqc8
Here's to a fantastic week at Embedded World! ๐
From lightning talks and speaker sessions to demos of our latest automotive and IoT technologies, we brought our vast ecosystem together to showcase what's possible when you build #onArm.
Thank you to everyone that joined us. ๐
๐ย Software-defined vehicles (SDVs) are the future of automotive and they're being built #onArm.
Robert Day joins @Sonatus and @MotorTrend on the latest podcast to talk all things SDVs and where the industry is headed.
๐๐ Listen below.
๐ย And the winner of the Embedded Awards 2024 goes toโฆ @Ambiq_AI's Apollo510 MCU!
This winning tech opens the door to new local AI opportunities on billions of devices.
Listen in as the team talk us through their exceptionally efficient Arm-based SoCs at #EmbeddedWorld.
David Maidment recently shared his thoughts on the future of edge computing at #EmbeddedWorld!
Missed the talk? Catch up on his insights into the evolution of edge computing across billions of diverse connected devices to build a secure AI-enabled future: https://okt.to/EtfSRN
AI is everywhere at this year's #EmbeddedWorld.ย
๐ With the demand for more autonomy, increasingly advanced user experiences and the trend toward electrification Dennis Laudick shares why AI will remain crucial to drive innovation in the software-defined vehicle.
#ew24
Two identical demos. One different NPU.
Our new Ethos-U85 NPU is optimized for transformer networks to deliver the performance needed for edge AI use cases - including high performance voice and vision experiences.
This makes it perfect for AI applications like Genย AI. #ew24
We're ready for the final day of #EmbeddedWorld! ๐
It's been a fantastic show so far showcasing our power-efficient compute platforms that are fueling the future of edge AI.
Reply with an emoji to let us know if you'll be visiting us on the show floor. ๐
#ew24
What's trending at #EmbeddedWorld?
AI, AI and more AI. ๐ฅย
@pnwilliamson shares where you might find edge AI in action from our ecosystem partners building the future #onArm. #ew24
At the Arm booth at #EmbeddedWorld you'll find:
โ
Partner demos from the likes of @NXP, @Ambiq_AI and @_Elektrobit
โ
Partner Lightning Talks from @Microsoft, @EdgeImpulse and more
โ
Our latest IoT and Automotive tech
#ew24
๐ We're taking edge AI innovation to the next level with the new Arm Ethos-U85 NPU and Corstone-320 IoT Reference Design Platform.
@pnwilliamson shares how these new technologies are transforming future voice, audio and vision applications live from #EmbeddedWorld. #ew24
Get to know LaunchX from NetsPresso by @nota_ai, on show at #EmbeddedWorld. ๐
Designed to help you easily convert and benchmark AI models, it supports a ton of Arm-based devices from our partners including Arduino, NXP, Renesas, Raspberry Pi and NVIDIA. #ew24
๐บ๐ธ๐ฏ๐ต We're proud to support new AI research partnerships between universities in the US and Japan.
Through close collaboration between business, academia and government we can continue to advance AI innovation to transform industries and improve lives. https://okt.to/9JbahF
๐ข Custom Arm-based silicon from @GoogleCloud is here!
Axion, built on Armv9 Neoverse V2, will bring performance & energy efficiency gains to AI inferencing & general-purpose workloads, like web and app servers.
Congrats to the team! ๐ https://okt.to/xS4cBN #GoogleCloudNext
It's time for #EmbeddedWorld! ๐
We're in Nuremberg this week showing you how to build your AI-accelerated future #onArm. ๐
Canโt join us in person? Keep up to date on social media for live updates from the show! #ew24
๐ Get ready to accelerate edge AI with the new Arm Ethos-U85 NPU and Corstone-320 IoT Reference Design Platform. โก
With performance and efficiency uplifts, developers can now deliver greater AI compute in smaller, more cost-sensitive devices: https://okt.to/cJPTCQ
When it comes to AI and ML at the edge, challenges like hardware fragmentation and performance optimization stand in the way of widespread adoption.
ย
@pnwilliamson shares how developers can navigate this, with an invitation to join us at Embedded World: https://okt.to/tpsPTd
With the AI boom fueling demand for compute, our CEO Rene Haas speaks to @jchatterleyCNN on the importance of ecosystem collaboration to unlock unique capabilities we've not seen before.ย
ย
Listen to the @CNN podcast at 28:38 for the full interviewย ๐ https://okt.to/mcH1tF
