Abstract: Integrated voltage regulator modules (iVRMs) [1] provide a cost-effective path to realizing per-core dynamic voltage and frequency scaling (DVFS), which can be used to optimize the ...

Abstract: A distributed network of low-dropout (LDO) microregulators (uREGs) senses and corrects the voltages at multiple points on a power supply grid in a multi-core microprocessor to reduce errors ...

Abstract: In-memory computing (IMC) addresses the cost of accessing data from memory in a manner that introduces a tradeoff between energy/throughput and computation signal-to-noise ratio (SNR).

Abstract: Miniaturization of integrated circuits brings more devices (thus more functionality) on the same silicon area but also makes them more vulnerable to soft (transient) errors. Assessment and ...

Abstract: Considers the development of silicon microsensors which can fit on the same chip with a microprocessor. Various sensor types are described, their fabrication presented and their possible ...

Abstract: Performance benchmarks have been used over the years to compare different systems. These benchmarks can be useful for researchers trying to determine how changes to the technology, ...

Abstract: This paper describes an all-digital PVT-variation tolerant true-random number generator (TRNG), fabricated in 45 nm high-k/metal-gate CMOS, targeted for on-die entropy generation in ...

Abstract: During the 1990s a series of asynchronous microprocessors based on the ARM architecture was developed at the University of Manchester. The objective was to demonstrate that it was feasible ...