none5siWe present Mr. Wolf, a Parallel Ultra Low Power (PULP) SoC featuring a hierarchical architecture with a small (12KG) microcontroller class RISC-V core augmented with an autonomous IO subsystem for efficient data transfer from a wide set of peripherals. The small core can offload compute-intensive kernels to an 8-cores floating-point capable processing engine available on demand. The proposed SoC, implemented in a 40 nm LP CMOS technology, features a 108 μW fully retentive memory (512 kB). The IO subsystem is capable of transferring up to 1.6Gbit/s in less than 2.5mW. The 8-core compute cluster achieves a peak performance of 850 millions of 32-bit integer multiply and accumulate per second (MMAC/s), 500 millions of 32-bit floating-poi...
IoT applications span a wide range in performance and memory footprint, under tight cost and power c...
The stringent power constraints of complex microcontroller based devices (e.g. smart sensors for the...
The stringent power constraints of complex microcontroller based devices (e.g. smart sensors for the...
This paper presents Mr. Wolf, a parallel ultra-low power (PULP) system on chip (SoC) featuring a hie...
none13noThis article presents an ultra-low-power parallel computing platform and its system-on-chip ...
The End-Nodes of the Internet of Things (IoT) require extreme energy efficiency coupled with wide po...
Ultra-low power operation and extreme energy efficiency are strong requirements for a number of high...
Novel pervasive devices such as smart surveillance cameras and autonomous micro-UAVs could greatly b...
This article consists of a collection of slides from the authors' conference presentation
Abstract Novel pervasive devices such as smart surveil-lance cameras and autonomous micro-UAVs could...
The "internet of everything" envisions trillions of connected objects loaded with high-bandwidth sen...
Modern IoT end nodes must support computational intensive workloads at a limited power-budget. Paral...
IoT applications span a wide range in performance and memory footprint, under tight cost and power c...
The stringent power constraints of complex microcontroller based devices (e.g. smart sensors for the...
The stringent power constraints of complex microcontroller based devices (e.g. smart sensors for the...
This paper presents Mr. Wolf, a parallel ultra-low power (PULP) system on chip (SoC) featuring a hie...
none13noThis article presents an ultra-low-power parallel computing platform and its system-on-chip ...
The End-Nodes of the Internet of Things (IoT) require extreme energy efficiency coupled with wide po...
Ultra-low power operation and extreme energy efficiency are strong requirements for a number of high...
Novel pervasive devices such as smart surveillance cameras and autonomous micro-UAVs could greatly b...
This article consists of a collection of slides from the authors' conference presentation
Abstract Novel pervasive devices such as smart surveil-lance cameras and autonomous micro-UAVs could...
The "internet of everything" envisions trillions of connected objects loaded with high-bandwidth sen...
Modern IoT end nodes must support computational intensive workloads at a limited power-budget. Paral...
IoT applications span a wide range in performance and memory footprint, under tight cost and power c...
The stringent power constraints of complex microcontroller based devices (e.g. smart sensors for the...
The stringent power constraints of complex microcontroller based devices (e.g. smart sensors for the...