Modern CPUs combine deep pipelines, instruction-level parallelism, and smart cache systems to maximize work per cycle. Techniques like branch prediction, hazard mitigation, and AI-assisted cache ...

For more than three decades, modern CPUs have relied on speculative execution to keep pipelines full. When it emerged in the 1990s, speculation was hailed as a breakthrough — just as pipelining and ...

Oh yeah: I was going to post this in the cpu discussion board, but it seems this board is the best place to find people from all platforms concerned. If you really want me to provide a point of ...

Potential framework for fully automated processor chip design, including three core components: a) A domain-specific LLM to comprehend the specification and generate a primary design; b) An automated ...

To my knowledge, processors with longer pipelines (P4) are able to run at higher frequencies as opposed to those with shorter piplines (Athlon). I've read that from several places but none of them ...

Low-Power Automotive-Grade RISC-V Processor Core Compliant with ISO 26262 ASIL D/B standards, it features a highly configurable architecture designed ...

Mid-range 32-bit RISC-V core, the world's first general-purpose MCU based on RISC-V. Balancing power, performance and area, comparable to ARM Cortex-M ...