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Start Date:7/22/2020 Start Time:11:00 AM EDT Duration:30 minutes Abstract:With increasing signal processing requirements in various types of embedded systems, some companies designed chips that combine both a digital signal processor (DSP) and a general purpose processor to address the processing demands. While this suits some high-performance devices where silicon area and power are less of a concern, such devices could be difficult to program and can be power hungry.
To address the challenge, Arm has been working on technologies that boost the signal processing and machine learning capabilities in the Arm Cortex-M55 processor. In this tutorial we will look at how Arm Helium technology compares to features found on traditional DSPs, and some of the fundamental differences between VLIW (Very Long Instruction Word) architecture and the Helium approach to the Cortex-M55 processor’s design. We will also look into how the processing requirements affect the processor’s level-one memory system design and the overall performance benefit of the Helium technology. If you're already registered for the Blending DSP and ML Features in a Low-power, General-Purpose Processor: How far can we go? webcast, click below: ALREADY REGISTERED?
Speakers Joseph Yiu Joseph Yiu, Distinguished Engineer, Arm
Joseph Yiu is a Distinguished Engineer in Arm’s Automotive and IoT Line of Business group with a key focus on technologies and products for embedded applications. He joined Arm in 2001 and has more than ten years of experience with Arm product development, spanning processor projects including Cortex-M processors, Cortex-M System Kits, PrimeCells and CoreSight components. Joseph holds multiple patents related to several of these products. He is the author of the “Definitive Guide to Arm Cortex-M” book series. His most recent book is System-on-Chip Design with Arm Cortex-M Processor. Joseph holds an MSc in microelectronics systems design and a BEng in electronics engineering.
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Blending DSP and ML Features in a Low-power, General-Purpose Processor: How far can we go?
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