This paper introduces an inexact, but ultra-low power, computing architecture devoted to the embedded analysis of bio-signals. The platform operates at extremely low voltage supply levels to minimize energy consumption. In this scenario, the reliability of SRAM memories cannot be guaranteed when using conventional 6-transistor implementations. While error correction codes and dedicated SRAM implementations can ensure correct operations in this near-threshold regime, they incur in significant area and energy overheads, and should therefore be employed judiciously. Herein, we propose a novel scheme to design inexact computing architectures that selectively protects memory regions based on their significance, i.e., their impact on the end-to-e...
This study presents a single-core and a multi-core processor architecture for health monitoring syst...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
A multi-core architecture with ultra-low power consumption is needed for a wide variety of applicati...
The energy efficiency of digital architectures is tightly linked to the voltage level (Vdd) at which...
In this study, the authors explore sequential and parallel processing architectures, utilising a cus...
Technology scaling enables today the design of sensor-based ultra-low cost chips well suited for eme...
Technology scaling enables the design of low cost biosignal processing chips suited for emerging wi...
This paper introduces a novel computing architecture devoted to the ultra-low power analysis of mult...
As the Internet of Things (IoT) era emerges the need for ultra-low power (ULP) devices is becoming m...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
In the Internet-of-Things (IoT) era, there is an increasing trend to enable intelligent behavior in ...
Implantable systems that monitor biological signals require increasingly complex digital signal proc...
Abstract—Bioimplantable microsystems, such as pacemaker and cochlear implant, interface with interna...
Abstract—Implantable microsystems for monitoring or manipu-lating brain activity typically require o...
In the last decade, improvements on technology scaling have enabled the design of a novel generation...
This study presents a single-core and a multi-core processor architecture for health monitoring syst...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
A multi-core architecture with ultra-low power consumption is needed for a wide variety of applicati...
The energy efficiency of digital architectures is tightly linked to the voltage level (Vdd) at which...
In this study, the authors explore sequential and parallel processing architectures, utilising a cus...
Technology scaling enables today the design of sensor-based ultra-low cost chips well suited for eme...
Technology scaling enables the design of low cost biosignal processing chips suited for emerging wi...
This paper introduces a novel computing architecture devoted to the ultra-low power analysis of mult...
As the Internet of Things (IoT) era emerges the need for ultra-low power (ULP) devices is becoming m...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
In the Internet-of-Things (IoT) era, there is an increasing trend to enable intelligent behavior in ...
Implantable systems that monitor biological signals require increasingly complex digital signal proc...
Abstract—Bioimplantable microsystems, such as pacemaker and cochlear implant, interface with interna...
Abstract—Implantable microsystems for monitoring or manipu-lating brain activity typically require o...
In the last decade, improvements on technology scaling have enabled the design of a novel generation...
This study presents a single-core and a multi-core processor architecture for health monitoring syst...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
A multi-core architecture with ultra-low power consumption is needed for a wide variety of applicati...