Editor's Note: This is the first of two articles discussing how Massively Parallel Processing Arrays (MPPAs) can be used to accelerate high-performance embedded system applications. In this article, ...

Multi-mode sensor processing – such as that for radar beamforming and for electro- optical (E-O) or infrared (IR) image processing – presents formidable computing problems. It requires extremely ...

Algorithm-driven design is the norm rather than the exception for the modern system designer, often requiring them to incorporate higher performance integrated circuits (ICs). Unfortunately, the ...

Modern computing has many foundational building blocks, including central processing units (CPUs), graphics processing units (GPUs) and data processing units (DPUs). However, what almost all modern ...

Broadcom’s XLP900 architecture can translate into a massively parallel processing array that has been augmented to handle high-end switching communications and networking chores. Broadcom’s XLP900 ...

Parallel processing is an idea that will be familiar to most readers. Few of you will not be reading this on a device with only one processor core, and quite a few of you will have experimented with ...

GPU-based sorting algorithms have emerged as a crucial area of research due to their ability to harness the immense parallel processing power inherent in modern graphics processing units. By ...

Outshining ASICs, DSP and FPGA for many video and imaging applications, each processor in an MPPA is strictly encapsulated, accessing only its own code and memory. Editor's Note: This is the first of ...