NEC and AIST Develop LSI with NanoBridge Technology Featuring High Radiation Tolerance for use in Space
- High radiation tolerance and ultra-low power consumption -
TOKYO, Mar 07, 2017 - (JCN Newswire) - NEC Corporation and the National Institute of Advanced Industrial Science and Technology (AIST) today announced the development of an NB-FPGA(1) that incorporates NanoBridge metal atom migration-type switch technology utilizing TIA(2), an open innovation hub operated by five institutes in Tsukuba and Tokyo. This original NEC product featuring high radiation tolerance is expected to contribute to the use of LSIs in space.
| Figure 1: Operation mechanism of NanoBridge (left), NB-FPGA chip (right) |
Current FPGAs (SRAM-type FPGAs)(3), when used in space, pose the problem of changes occurring to the information written in the SRAM and malfunctions being caused due to the effects of radiation. However, this NanoBridge technology enables a tenfold improvement over the power efficiency of conventional FPGAs as well as providing them with high radiation tolerance.
NEC has conducted an operation demonstration jointly with the Japan Aerospace Exploration Agency (JAXA), using the newly developed NB-FPGA in a tough radioactive terrestrial environment. As a result, it has confirmed that the ON and OFF states of the NanoBridge remain unchanged, whether radiation is delivered or not. "Based on the result, NEC expects that the NanoBridge will be able to reduce the frequency of errors caused by radiation to one percent or less and contribute to the creation of an LSI that offers high radiation tolerance and ultra-low power consumption simultaneously," said Yuichi Nakamura, General Manager, System Platform Research Laboratories, NEC Corporation.
This NB-FPGA was developed jointly by NEC and AIST, building on the success of NEDO's "Low-power Electronics Association & Project (LEAP)," and is one of the TIA's open innovation achievements.
Going forward, NEC and JAXA will validate the usability and reliability of the NB-FPGA by incorporating it in the Innovative Satellite Technology Demonstration 1, which will be launched in FY2018.
http://www.acnnewswire.com/topimg/Low_NECAISTLSI.jpg Figure 1: Operation mechanism of NanoBridge (left), NB-FPGA chip (right)
NanoBridge Radiation Resistance
Devices used in satellites are required to be extremely reliable. Even so, they are susceptible to circuitry failures called single event phenomena due to the effects of strong radiation in space. The occurrence of failures due to radiation poses a similar challenge in terrestrial communication devices as well. For example, if radiation is delivered to an LSI, an electrical charge occurs in the semiconductor substrate. As a result, a failure occurs to the SRAMs in FPGAs that record information based on the amount of charge, causing a change in the circuit configuration.
The NanoBridge uses the cross-link of metal atoms in a solid electrolyte to place the signals into the ON or OFF state (Fig.1). The ON or OFF state is maintained even after voltage is released. The cross-link created by metal atoms in the NanoBridge is free from the impact of electrical charges generated by the delivery of radiation. Accordingly, the possibility of rewriting is extremely remote in the circuit of NB-FPGA, even in a space environment that is exposed to a large amount of radiation, thereby making the product extremely reliable.
Demonstration Experiment in Space
The NB-FPGA will be incorporated in the Innovative Satellite Technology Demonstration 1, which will be launched in FY2018, and a demonstration experiment of compressing and transmitting camera-captured images through the NB-FPGA will be carried out in a harsh environment.
NB-FPGA for which the evaluation was performed
Compatibility and usability have been improved by applying 4-input LUT(4) used in conventional FPGAs to the circuit system. Eight thousand LUTs are mounted on a 64x64 cell array chip. (In a demonstration experiment in space, 37,000 LUTs will be mounted on the NB-FPGA to compress images.)
The reliability of the switch that is in the OFF state has been improved by applying a three-terminal structure to the NanoBridge switch(5). One NB-FPGA contains up to 51 million switches, which are used for changing signals and as the memory of LUTs.
Going forward, NEC will develop NB-FPGA for application with satellite systems by utilizing the evaluation results in the Innovative Satellite Technology Demonstration program conducted by JAXA. NEC applies NB-FPGA to highly-reliable apparatus in harsh environments on the ground, i.e., robots, automobiles and commutations equipment(6).
(1) FPGA: Field Programmable Gate Array. Logic LSI design technology for rewriteable field programmable gate arrays. (2) https://www.tia-nano.jp/en/about/index.html (3) SRAM-type FPGA: FPGA based on SRAM (volatile memory that allows data to be read and written flexibly), which holds a circuit configuration that creates logic functions. (4) Look-Up Table (LUT): Circuit system that creates different types of logic gates by storing the output values of logic operations that correspond to input values in a memory called LUT and reading these values from it. (5) 3-terminal structure: The structure halves the voltage stress that is applied in the OFF state by transforming two serially-connected NanoBridges into one switch. It is a structure that makes the rewriting process possible with low voltages by applying voltage to the respective NanoBridges while rewriting is being performed. (6) Application of NB-FPGA to ICT apparatus has been carried out in NEDO's Strategic Program for Innovative Energy Efficiency Technology.
Contact:NEC
Seiichiro Toda
s-toda@cj.jp.nec.com
+81-3-3798-6511
Source: NEC Corporation Sectors: Electronics
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