From Architecture to GDS: Introducing the X200, a Market-Ready, High-Performance RISC-V Core
2026-06-10 , Poster Island C

As the RISC-V software ecosystem achieves maturity for high-performance computing, the demand for production-ready, competitive processor cores has reached a critical point. This presentation introduces the X200, our flagship RISC-V core, which has completed its entire development cycle and is now ready for deployment. We provide a comprehensive overview of the X200's journey, from its ambitious design goals to final GDS layout. The session details its advanced multi-stage pipeline, sophisticated memory subsystem, and scalable multi-core interconnect fabric. We present a transparent competitive analysis, share key benchmark results, and reveal detailed Power, Performance, and Area (PPA) data verified from the final layout. Attendees will gain a clear understanding of the X200's capabilities and its readiness to power next-generation SoCs.


The era of high-performance RISC-V is no longer on the horizon—it's here. But what does a truly market-ready, flagship-class core look like? Join us for the official unveiling of the X200, our most powerful RISC-V processor to date. This is not just a concept; we will walk you through the entire project, from initial architecture to a completed design ready for licensing.
In this session, you will:
See the Proof: Go beyond specifications and view our competitive analysis, benchmark scores, and final PPA results from the physical layout.
Dive Deep into the Microarchitecture: Get an exclusive look under the hood at the X200's pipeline, advanced prefetcher, vector unit, and memory subsystem.
Understand Scalability: Explore the design of our multi-cluster interconnect, engineered for building complex, cache-coherent systems.
Learn About Our Business Model: Discover the flexible licensing, customization options, and comprehensive deliverables that make the X200 accessible for your next project.

I possess 14 years of expertise in high-performance CPU design, specializing in high-performance core development and inter-core interconnect buses. Throughout my career, I have led the development of multiple processor cores across different instruction sets, taking them from design to successful tape-out and final deployment in sectors including finance, consumer electronics, industrial control, and the Internet of Things (IoT). I have also participated in several national "Core and High-Base" initiatives and hold over 15 granted invention patents