Imagination Technologies launches PowerVR multi-core GPUs for IoT to autonomous cars
October 13, 2020
Imagination Technologies has announced its PowerVR IMG B-Series, a new series of graphics processing unit (GPU) chip designs with multi-core customization for a variety of markets.
The graphics chip designs can deliver up to six teraflops of performance when used with the high-end configuration. And the four families of the GPUs can be used with internet of things devices, low-end to high-end smartphones, cloud computing systems, digital TVs, desktops, and autonomous cars.
The new designs are Imagination‘s latest intellectual property, which it licenses to chip makers. The company designs the GPUs and chip makers customize it to their needs and then manufacture the chips. The earliest customer chips are expected to hit the market in the second half of 2021, said Kristof Beets, senior director of product management at Imagination, in an interview with VentureBeat.
The B-Series at the high end of the market with four cores promises a 30% reduction in power and 25% size reduction over previous generations and a 2.5-times higher fill rate than competing cores. Imagination said that the high-end tech could be used in chips for future game consoles or desktops.
The United Kingdom-based Imagination announced its A-Series GPUs a year ago, offering high-performance cores operating at two watts of power, making the devices ideal for applications that require performance efficiency, Beets said.
“Our customers asked me the hard question, ‘Could you make those two GPUs work together and act like a bigger GPU?’ And that is exactly what we did in response to those market requests with B-Series,” Beets said. “These cores can either work on the same problem or operate independently on different applications.”
Advanced multi-core architecture
Above: Imagination’s BXS design for autonomous cars GPUs.
Image Credit: Imagination
B-Series is a further evolution with as many as 33 different configurations. One example is that you can take the cores and make a chiplet out of them. Chiplets can be combined with other chiplets to make more complex chips. A GPU could also be used to back up AI neural networking processing if more horsepower is needed.
“That makes it much cheaper to design your GPUs,” Beets said.
B-Series also contains the first ISO 26262-capable cores, which are safety compliant, with IMG BXS providing a wide range of options for automotive. Those cores can range from small, safety-fallback cores, to multiple teraflops of computing for advanced driver-assistance systems (ADAS) and high-performance autonomous vehicles.
IMG B-Series is available today and already has lead licensees for every product family. In the sub-families, BXE offers primary and secondary scaling, where one core does most of the work, and the other cores handle supplemental tasks. The cores are connected via HyperLane for multitasking.
The BXT and BXM sub-families feature multi-primary full-core scaling. That means they can combine the power of all of the cores to deliver maximum single-app performance, or they can enable different cores to run independent applications. And the BXS automotive cores have a multi-primary design for performance scaling as well as safety checks that are performed across cores to confirm accuracy.
Beets said he expects high-end solutions to launch first in the second half of 2021. Beets said the graphics also have ray-tracing features, which improve shadow and lighting effects and have been a mainstay of rival Nvidia’s graphics-chip strategy.
Image compression technology
Above: Imagination Technologies’ BXT graphics processing unit chip design.
Image Credit: Imagination
IMG B-Series also includes IMGIC, an advanced image compression technology that provides bandwidth saving options. It offers up to four levels of compression, from pixel-perfect lossless modes to an extreme bandwidth-saving mode, which offers a guaranteed 4-to-1 or better compression rate.
This gives more flexibility for chip designers to optimize either for performance or to reduce system costs while maintaining a good user experience. IMGIC is compatible with every core across the B-Series range, bringing the benefits of compression to even the smallest cores.
The IMG B-Series cores
The IMG B-Series is available in four product families that offer specialized cores for specific market needs:
IMG BXE: It can drive one to 16 pixels per clock (PPC) and scales from 720p resolution to 8K with a range of GPUs specifically designed for user-interface rendering and entry-level gaming. BXE offers up to 25% area saving compared to previous generation cores and up to 2.5x the fill rate density compared to the competition.
IMG BXM: This includes a high-efficiency performance cores balancing fill rate and compute in a compact silicon area for mid-range mobile gaming and complex UI solutions for DTV and other markets.
IMG BXT: This is focused on high performance for real-world applications, scaling from the device in your hand to the datacenter. The flagship B-Series GPU is a four-core part generating 6.0 teraflops of performance, 192 Gigapixels per second, and 24 trillion operations per second (TOPS) for AI.
IMG BXS: Thesea are automotive GPUs that are ISO 26262-capable. They range from entry to premium, delivering solutions for next-generation HMI, UI display, infotainment, digital cockpit, surround view, through to multi-teraflop compute-focused configurations for autonomy and advanced driver assistance systems (ADAS).