The following publications are possibly variants of this publication:
- Total Ionizing Dose Effects of Optical Components on an Optically Reconfigurable Gate ArrayRetsu Moriwaki, Hiroyuki Ito, Kouta Akagi, Minoru Watanabe, Akifumi Ogiwara. arc 2015: 393-400 [doi]
- Total-ionizing-dose tolerance evaluation of an optoelectronic field programmable gate array VLSI during operationHirotoshi Ito, Minoru Watanabe. fpt 2021: 1-4 [doi]
- Shield Effect Analysis for a Gate Array on An Optically Reconfigurable Gate ArrayMinoru Watanabe, Fuminori Kobayashi. ersa 2006: 239-240
- Timing Analysis of an Optically Differential Reconfigurable Gate Array for Dynamically Reconfigurable ProcessorsMinoru Watanabe, Fuminori Kobayashi. ersa 2004: 311
- High total-ionizing-dose tolerance field programmable gate arrayTakumi Fujimori, Minoru Watanabe. iscas 2018: 1-4 [doi]
- 272 Gate Count Optically Differential Reconfigurable Gate Array VLSIMinoru Watanabe, Takenori Shiki, Fuminori Kobayashi. ersa 2007: 259-264
- Radiation Tolerance of Color Configuration on an Optically Reconfigurable Gate ArrayTakumi Fujimori, Minoru Watanabe. ipps 2014: 205-210 [doi]
- Radiation tolerance demonstration of high-speed scrubbing on an optically reconfigurable gate arrayTakumi Fujimori, Minoru Watanabe. socc 2017: 91-95 [doi]
- An Optically Differential Reconfigurable Gate Array VLSI Chip with a Dynamic Reconfiguration CircuitMinoru Watanabe, Fuminori Kobayashi. ipps 2005: [doi]
- An 11, 424-gate dynamic optically reconfigurable gate array VLSIMao Nakajima, Minoru Watanabe. fpt 2008: 293-296 [doi]
- Optically Reconfigurable Gate Array VLSI That Can Support a Perfect Parallel ConfigurationSae Goto, Minoru Watanabe, Nobuya Watanabe. apccas 2021: 241-245 [doi]