Advanced Internet-of-Things applications require control-oriented codes to be executed with low latency for fast responsivity while their advanced signal processing and decision making tasks require computational capabilities. For this context, we propose three multi-issue core designs featuring an exposed datapath architecture with high performance, while retaining energy-efficiency. These features are achieved with exploitation of instruction-level parallelism, fast branching and the use of an instruction register file. With benchmarks in control-flow and signal processing application domains we measured in the best case 64% reduced energy consumption compared to a state-of-the-art RISC core, while consuming less silicon area. A high-perf...
Internet-of-Things end-nodes demand low power processing platforms characterized by heterogeneous de...
International audienceIn recent years, the edge computing paradigm has been attracting much attentio...
International audienceIoT node application requirements are torn between sporadic data-logging and e...
Various use cases in the era of Internet-of-Things (IoT) demand processor devices to have low energy...
Tailored to run domain-specific applications under very strict constraints on, for example, real-tim...
The Internet-of-Things (IoT) is an emerging paradigm that aims to integrate technology into the huma...
Energy efficiency has become one of the most important topics in computing. To meet the ever increas...
High performance and extreme energy efficiency are strong requirements for a fast-growing number of ...
This dissertation presents three design solutions to support several key system-on-chip (SoC) issues...
Low power consumption and high computational performance are two important processor design goals fo...
International audienceEmerging Internet of Everything (IoE) applications and Artificial Intelligence...
Endpoint devices for Internet-of-Things not only need to work under extremely tight power envelope o...
U.S. data center energy consumption is expected to rise past 100 billion kWh in 2013. Approximately ...
The Internet-of-Things (IoT) revolution fueled new challenges and opportunities to achieve computati...
Internet-of-Things end-nodes demand low power processing platforms characterized by heterogeneous de...
International audienceIn recent years, the edge computing paradigm has been attracting much attentio...
International audienceIoT node application requirements are torn between sporadic data-logging and e...
Various use cases in the era of Internet-of-Things (IoT) demand processor devices to have low energy...
Tailored to run domain-specific applications under very strict constraints on, for example, real-tim...
The Internet-of-Things (IoT) is an emerging paradigm that aims to integrate technology into the huma...
Energy efficiency has become one of the most important topics in computing. To meet the ever increas...
High performance and extreme energy efficiency are strong requirements for a fast-growing number of ...
This dissertation presents three design solutions to support several key system-on-chip (SoC) issues...
Low power consumption and high computational performance are two important processor design goals fo...
International audienceEmerging Internet of Everything (IoE) applications and Artificial Intelligence...
Endpoint devices for Internet-of-Things not only need to work under extremely tight power envelope o...
U.S. data center energy consumption is expected to rise past 100 billion kWh in 2013. Approximately ...
The Internet-of-Things (IoT) revolution fueled new challenges and opportunities to achieve computati...
Internet-of-Things end-nodes demand low power processing platforms characterized by heterogeneous de...
International audienceIn recent years, the edge computing paradigm has been attracting much attentio...
International audienceIoT node application requirements are torn between sporadic data-logging and e...