@article{oai:nagoya.repo.nii.ac.jp:00021665, author = {横田, 順平 and 津秦, 伴紀 and 井上, 弘士 and 田中, 雅光 and YOKOTA, Jumpei and TSUHATA, Tomonori and INOUE, Koji and TANAKA, Masami}, issue = {323}, journal = {電子情報通信学会技術研究報告. ICD, 集積回路}, month = {Nov}, note = {単一磁束量子(Single-Flux-Quantum;SFQ)マイクロプロセッサは,超伝導体素子によって構成され,極めて低消費電力で動作する次世代プロセッサである.デバイスの特性上,CMOSプロセッサと異なる新たなパイプライン構成およびビット幅の設計空間が考えられる.そこで,本稿ではSFQマイクロプロセッサの性能モデリングを行い,モデルに基づくマイクロアーキテクチャ探索を行う., Single-Flux-Quantum (SFQ) is a promising device technology to implement high-performance low-power microprocessors. Since it operates at the superconductive condition, the negative impact of resistance can dramatically reduced. Previous design of a SFQ microprocessor employs a bit-serial implementation for instruction pipelining. However, since there is a trade-off between bit-level parallelism and operation frequency, it is still not clear that this kind of bit-level operation is suitable for SFQ microprocessors. To answer this question, this paper explore the SFQ pipeline micro-architecture and evaluates their performance., IEICE Technical Report;CPM2013-115, IEICE Technical Report;ICD2013-92}, pages = {43--48}, title = {単一磁束量子デバイスを用いた次世代プロセッサのマイクロアーキテクチャ探索}, volume = {113}, year = {2013} }