This paper proposes a design methodology for a digital library of cells resistant to cosmic radiation. Most important effects due to radiation are avoided or mitigated using ad hoc design techniques. Fault injection techniques are used to validate the design. Simulations results demonstrate that the cells designed in a 180 nm CMOS technology are tolerant to 1.5 mA current peak due to interaction with a single high-energy particle
Presently a major concern about electronic devices operating in space environment is the radiation e...
Abstract In this paper, we present a new radiation tolerant CMOS standard cell library, and demonst...
In the electronics space industry, memory cells are one of the main concerns, especially in term of ...
Radiation effects which may degrade integrated circuit performance significantly make it challengeab...
This paper proposes a new design method to enhance the radiation hardness of circuits for the next g...
Present-day and next generation of satellites require sophisticated, yet high reliability integrated...
Electronic technologies that can operate in harsh radiation environments are important in space, nuc...
This paper proposes a methodology to design radiation-hardened ICs, suitable for space applications ...
A standard cell library was developed using a commercial 0.24 µm, 2.5 V CMOS technology. Radiation t...
This paper presents the design of three static RAM cells, designed to be radiation hard. The memory ...
UnrestrictedWith aggressive technology scaling, radiation-induced soft errors have become a major th...
This paper comparatively analyzes the static random-access memory (SRAM) cell designs for fault tole...
This paper describes a SRAM designed for space and nuclear physics applications. The device has been...
This paper describes a SRAM designed for space and nuclear physics applications. The device has been...
Integrated Circuits in space suffer from reliability problems due to the radiative surroundings. Hig...
Presently a major concern about electronic devices operating in space environment is the radiation e...
Abstract In this paper, we present a new radiation tolerant CMOS standard cell library, and demonst...
In the electronics space industry, memory cells are one of the main concerns, especially in term of ...
Radiation effects which may degrade integrated circuit performance significantly make it challengeab...
This paper proposes a new design method to enhance the radiation hardness of circuits for the next g...
Present-day and next generation of satellites require sophisticated, yet high reliability integrated...
Electronic technologies that can operate in harsh radiation environments are important in space, nuc...
This paper proposes a methodology to design radiation-hardened ICs, suitable for space applications ...
A standard cell library was developed using a commercial 0.24 µm, 2.5 V CMOS technology. Radiation t...
This paper presents the design of three static RAM cells, designed to be radiation hard. The memory ...
UnrestrictedWith aggressive technology scaling, radiation-induced soft errors have become a major th...
This paper comparatively analyzes the static random-access memory (SRAM) cell designs for fault tole...
This paper describes a SRAM designed for space and nuclear physics applications. The device has been...
This paper describes a SRAM designed for space and nuclear physics applications. The device has been...
Integrated Circuits in space suffer from reliability problems due to the radiative surroundings. Hig...
Presently a major concern about electronic devices operating in space environment is the radiation e...
Abstract In this paper, we present a new radiation tolerant CMOS standard cell library, and demonst...
In the electronics space industry, memory cells are one of the main concerns, especially in term of ...