The first i.MX9 processor will pack 64-bit CPUs, an MCU, and an AI accelerator to handle a range of IoT applications, including industrial control, smart home, smart city, and smart grid.
With its Pentonic 2000 processor, the TV-chip leader delivers impressive CPU, GPU, and AI-engine improvements to enable new capabilities such as bidirectional video and gaming without a console.
After a 26-year run, Centaur Technology has reached the end of the trail. Glenn Henry’s processor-design team, known for its x86 expertise, has become part of Intel.
AMD’s Instinct MI250 and MI250X GPUs deliver extreme floating-point performance through massive parallelism, targeting high-end scientific and government research with leading FP64 throughput.
At 1.3 billion rays per second, the Photon architecture in Imagination’s new PowerVR CXT RT3 GPU enables hardware-accelerated real-time ray tracing for the first time in mobile devices.
Kneron is targeting emerging computer-vision models with its KL530. The new SoC delivers 0.5 trillion INT8 operations per second (TOPS) and supports INT4 format for greater throughput.
In its latest mainstream push, Qualcomm delivers a fresh four-pack filled with CPU, GPU, and camera upgrades. It’s raising performance across multiple segments from low-end to mid-premium.
AMD recently disclosed new details of its Epyc server-processor roadmap, including Milan-X with V-Cache, Genoa based on Zen 4 cores, and Bergamo scaling to 128 cores.
As we celebrate the anniversary of the Intel 4004, this article extends our microprocessor history by covering the top trends from the past decade, including the rise of AI, Nvidia, processor startups, and RISC-V.
Microprocessors have improved by seven orders of magnitude—from 2,300 to 54 billion transistors—in only five decades. To illustrate these changes, we highlight a handful of industry-defining products.
Apple’s M1 Max processor delivers a massive boost in integrated-graphics performance compared with the original M1, offering throughput similar to that of Nvidia’s top-end laptop GPU card.
For the first time, Google designed the main processor in its flagship smartphone. The Tensor SoC is based on a Samsung design but integrates Google’s AI accelerator and image processor (ISP).
The Renesas R-Car S4 serves as a vehicle’s central networking hub, but it also integrates ASIL-capable application CPUs, real-time CPUs, and safety microcontrollers along with multiple hardware security features.
Following its success in low-power wake-word detection, Syntiant has expanded into computer vision with its newest chip. The NDP200 can handle simple video tasks such as presence detection.
Intel’s Core i9-12900K chip delivers a double-digit performance advantage over AMD’s fastest Ryzen processor. To do so, it runs at a sweltering 241W while using new superfast DDR5 DRAM.
The new Tensilica HiFi 1 DSP consumes less die area and power than the popular HiFi 3 but adds new instructions that improve performance on Bluetooth 5’s Low Complexity Communication Codec (LC3).