Sondrel định nghĩa lại quy trình thiết kế chip AI

Sondrel Redefines the AI Chip Design Process

Designing custom silicon for AI applications is a particularly vexing problem. These chips process enormous amounts of data with a complex architecture that typically contains a diverse complement of heterogeneous processors, memory systems and various IO strategies. Each of the many subsystems in this class of chip will have different data traffic requirements. Despite all these challenges, an effective architecture must run extremely efficiently, without processor stalls or any type of inefficient data flow. The speed and power requirements for this type of design cannot be met without a highly tuned architecture. These challenges have kept design teams hard at work for countless hours, trying to find the optimal solution. Recently, Sondrel announced a new approach to this problem that promises to make AI chip design far more efficient and predictable. Let’s examine how Sondrel redefines the AI chip design process.

Architecting the Future

Sondrel recently unveiled an advanced modeling process for AI chip designs. The approach is part of the company’s forward-looking Architecting the Future family of ASIC architecture frameworks and IP. By using a pre-verified ASIC framework and IP, Sondrel reduces the risks associated with “from scratch” custom chip design. The advanced modeling process is part of this overall risk reduction strategy.

The approach uses accurate, cycle-based system performance modeling early in the design process.  Starting early, before RTL development, begins the process of checking that the design will meet its specification. This verification approach continually evolves and can be used for the entire flow, from early specification to silicon. Using this unique approach with pre-verified design elements reduces risk and time to market. And thanks to the use of advanced process technology power can also be reduced while ensuring performance criteria can be reliably met.

Digging Deeper

Paul Martin
Paul Martin

I had the opportunity to meet with Paul Martin, Sondrel’s Global Field Engineering Director to get more details on how the new approach works. Paul has been with Sondrel for almost ten years. He was previously with companies such as ARM, NXP Semiconductors and Cadence, so he has a deep understanding of what it takes to do advanced custom chip design.

Paul explained that at the core of the new approach is a commercially available transaction-based simulator. Both Sondrel and the supplier of this simulator have invested substantial effort to take this flow well beyond the typical cycle-accurate use model. 

He explained that detailed, timing-accurate models of many IP blocks have been developed. These models essentially create accurate data traffic profiles for each element. Going a bit further, the AI workloads that will issue transactions to these IP blocks are analyzed to create a graphical representation of how transactions are initiated to the chip-level elements such as processors and memories.

Using this view of how the system is running, Paul further explained that a closed-loop simulation system is created that can feedback results to the compiler and the micro-architecture optimization tools for a particular NPU to optimize its performance, avoiding bottlenecks. This ability to model and optimize a system at the transaction level is unique and can be quite powerful.

Paul went on to describe the custom workflow that has been built around the commercial simulator. This workflow allows the same stimulus models to be applied from architectural analysis to RTL design, to emulation and all the way to real silicon. Essentially, the transaction model can be applied all the way through the process to ensure the design maintains its expected level of performance and power. The elusive golden specification if you will.

Paul explained that by focusing on the architect vs. the software developer a truly new approach to complex AI chip design is created. He went on to explain that this approach has been applied to several reference designs. He cited examples for video and data processing, edge IoT data processing and automotive ADAS applications.

To Learn More

You can see the details of the recent Sondrel announcement here. There are also a couple of good pieces discussing Sondrel’s work in the automotive sector on SemiWiki here. And you can explore Sondrel’s overall Architecture the Future strategy here. And that’s how Sondrel redefines the AI chip design process. Exciting stuff.

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