The following publications are possibly variants of this publication:
- Radiation Tolerance of Color Configuration on an Optically Reconfigurable Gate ArrayTakumi Fujimori, Minoru Watanabe. ipps 2014: 205-210 [doi]
- Fast-neutron soft-error tolerance experimentation with a radiation-hardened optically reconfigurable gate arrayMinoru Watanabe, Makoto Inami Kobayashi, Mitsutaka Isobe, Kunihiro Ogawa, Shigeo Matsuyama, Misako Miwa. iccel 2024: 1-2 [doi]
- Enhanced Radiation Tolerance of an Optically Reconfigurable Gate Array by Exploiting an Inversion/Non-inversion ImplementationTakashi Yoza, Minoru Watanabe. arc 2014: 156-166 [doi]
- Remote monitoring system for optically reconfigurable gate arrays in radiation environmentsUtsuki Sekioka, Minoru Watanabe, Nobuya Watanabe. iccel 2024: 1-2 [doi]
- Total Dose Tolerance Analysis of an Optically Reconfigurable Gate Array VLSIKaho Yamada, Takeshi Okazaki, Minoru Watanabe, Nobuya Watanabe. icecsys 2022: 1-4 [doi]
- A 16-context Optically Reconfigurable Gate ArrayMao Nakajima, Minoru Watanabe. asap 2009: 227-230 [doi]
- Mems optically reconfigurable gate arrayHironobu Morita, Minoru Watanabe. fpl 2009: 511-515 [doi]
- A 100-context optically reconfigurable gate arrayMao Nakajima, Minoru Watanabe. iscas 2010: 2884-2887 [doi]
- Optimization of Reconfiguration-speed Control Bits for an Optically Reconfigurable Gate ArrayMinoru Watanabe. ersa 2007: 291-294
- MEMS Dynamic Optically Reconfigurable Gate Array Usable under a Space Radiation EnvironmentDaisaku Seto, Minoru Watanabe. arc 2010: 134-144 [doi]
- Parallel configuration experiment for a radiation-hardened optically reconfigurable gate array with a holographic polymer-dispersed liquid crystal memorySae Goto, Minoru Watanabe, Akifumi Ogiwara, Nobuya Watanabe. iccel 2024: 1-2 [doi]
- Defect Tolerance of an Optically Reconfigurable Gate Array with a One-time Writable Volume Holographic MemoryTakayuki Mabuchi, Kenji Miyashiro, Minoru Watanabe, Akifumi Ogiwara. ahs 2009: 106-111 [doi]