International audienceWe present a Heavy Ion radiation study for a ultra low power non volatile 4Mbit ferroelectric memory(FRAM) for space applications manufactured on a 130nm domestic CMOS technology node. The radiation summary includes SEU data from Heavy Ions static as well as dynamic stress tests. The FRAM device meets the space level upset criteria for static device stress, but requires additional system mitigation for dynamic device stress
In New Space, the need for reduced cost, higher performance, and more prompt delivery plans in radi...
Radiation tolerance of NROM memories is demonstrated at the level of industrial 4 Mbit memory embedd...
This paper presents the design of a static RAM cell in 65 nm CMOS technology. A good level of radiat...
The impact of heavy-ions on commercial Ferroelectric Memories (FRAMs) is analyzed. The influence of ...
The space radiation environment can have serious effects on spacecraft electronics. The effect of in...
In New Space, the need for reduced cost, higher performance, and more prompt delivery plans in radia...
The impact of heavy-ions on commercial Ferroelectric Memories (FRAMs) is analyzed. The influence of ...
This work is focused on the development of a payload tile for the AraMIS structure called 1B521 Radi...
A major reliability issue for all advanced nonvolatile memory (NVM) technology devices including FRA...
International audienceThis work evaluates the sensitivity of two commercial ferroelectric random acc...
The Memory Test Experiment is a space test of a ferroelectric memory device on a low Earth orbit sat...
The total ionizing dose (TID) sensitivity of the function blocks, including the memory array, sense ...
The total ionizing dose (TID) sensitivity of the function blocks, including the memory array, sense ...
This chapter shows some applications of commercial ferroelectric memories in the space. The discussi...
We developed a mass-memory chip by staking 1 Gbit double data rate 2 (DDR2) synchronous dynamic rand...
In New Space, the need for reduced cost, higher performance, and more prompt delivery plans in radi...
Radiation tolerance of NROM memories is demonstrated at the level of industrial 4 Mbit memory embedd...
This paper presents the design of a static RAM cell in 65 nm CMOS technology. A good level of radiat...
The impact of heavy-ions on commercial Ferroelectric Memories (FRAMs) is analyzed. The influence of ...
The space radiation environment can have serious effects on spacecraft electronics. The effect of in...
In New Space, the need for reduced cost, higher performance, and more prompt delivery plans in radia...
The impact of heavy-ions on commercial Ferroelectric Memories (FRAMs) is analyzed. The influence of ...
This work is focused on the development of a payload tile for the AraMIS structure called 1B521 Radi...
A major reliability issue for all advanced nonvolatile memory (NVM) technology devices including FRA...
International audienceThis work evaluates the sensitivity of two commercial ferroelectric random acc...
The Memory Test Experiment is a space test of a ferroelectric memory device on a low Earth orbit sat...
The total ionizing dose (TID) sensitivity of the function blocks, including the memory array, sense ...
The total ionizing dose (TID) sensitivity of the function blocks, including the memory array, sense ...
This chapter shows some applications of commercial ferroelectric memories in the space. The discussi...
We developed a mass-memory chip by staking 1 Gbit double data rate 2 (DDR2) synchronous dynamic rand...
In New Space, the need for reduced cost, higher performance, and more prompt delivery plans in radi...
Radiation tolerance of NROM memories is demonstrated at the level of industrial 4 Mbit memory embedd...
This paper presents the design of a static RAM cell in 65 nm CMOS technology. A good level of radiat...