Siwa: a RISC-V RV32I based micro-controller for implantable medical applications

García Ramírez, Ronny; Chacón Rodríguez, Alfonso; Castro González, Reinaldo; Arnaud Maceira, Alfredo; Miguez de Mori, Matías Rafael; Gak Szollosy, Joel; Molina Robles, Roberto; Madrigal Boza, Gabriel; Oviedo Hernández, Marco; Solera Bolanos, Edgar; Salazar Sibaja, Diego; Sánchez Jiménez, Dayhana; Fonseca Rodríguez, Melissa; Arrieta Solorzano, Johan; Rimolo Donadio, Renato

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Siwa_a_RISC-V_RV32I_based_Micro-Controller_for_Implantable_Medical_Applications.pdf (302.1Kb)

Fecha

2020

Autor

García Ramírez, Ronny

Chacón Rodríguez, Alfonso

Castro González, Reinaldo

Arnaud Maceira, Alfredo

Miguez de Mori, Matías Rafael

Gak Szollosy, Joel

Molina Robles, Roberto

Madrigal Boza, Gabriel

Oviedo Hernández, Marco

Solera Bolanos, Edgar

Salazar Sibaja, Diego

Sánchez Jiménez, Dayhana

Fonseca Rodríguez, Melissa

Arrieta Solorzano, Johan

Rimolo Donadio, Renato

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URI

https://hdl.handle.net/20.500.12032/46774

Descripción

The design of Siwa1, a compact low power custom system on chip (SoC), targeted for implantable/wearable applications, is reported in this paper. Siwa is based on a RISC-V RV32I architecture. It has a centrally controlled non-pipelined structure, and it includes a control interface for an integrated sensing and stimulation device for biological tissues as well as standard communication interfaces. Siwa was developed from scratch using System Verilog, and implemented in a 180nm CMOS technology; Siwa includes a latch based register file c apable to read and write in one clock cycle with an area 30% smaller and a power consumption 25% lower with respect to an equivalent flip flop implementation; also, it has an estimated average power consumption of 70μW (48pJ/cycle) which is comparable to other micro-controllers commonly used in IMD applications.
Agencia Nacional de Investigación e Innovación

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