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 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 20 of 86  /  [Next]  
Committee Date Time Place Paper Title / Authors Abstract Paper #
IT, EMM 2024-05-31
11:25		 Chiba Chiba University (Nishi-Chiba Campus) Decoding of concatenated high-rate quantum error-detecting codes
Hayato Goto (RQC) IT2024-12 EMM2024-12		 To solve the resource overhead issue in fault-tolerant quantum computation, high-rate quantum codes, such as quantum LDP... [more] IT2024-12 EMM2024-12
pp.61-64
SS 2024-03-07
11:25		 Okinawa
(Primary: On-site, Secondary: Online)		 Development of a Framework for Implementing OTP Applications with Rust
Reiji Okamoto, Yoshiaki Takata (KUT) SS2023-51		 Concurrent programming with the green threads in the programming language Rust is very costly for reasons such as the po... [more] SS2023-51
pp.13-18
NS, IN
(Joint)		 2024-03-01
09:20		 Okinawa Okinawa Convention Center Stochastic process of broadcast communications between validator nodes in Byzantine Fault Tolerant Consensus Blockchains
Akihiro Fujihara (CIT) IN2023-82		 Some BlockChains (BCs) adopt distributed consensus algorithm with Byzantine fault tolerance.
Not only in consortium BCs... [more]		 IN2023-82
pp.101-106
DC 2024-02-28
13:15		 Tokyo Kikai-Shinko-Kaikan Bldg. A Study on Test Generation for Alleviating Over-testing of Approximate Multipliers
Qilin Wang, Hideyuki Ichihara, Tomoo Inoue (Hiroshima City Univ.) DC2023-97		 In this study, we discuss the alleviation of over-testing for approximate circuits. We target a design of approximate mu... [more] DC2023-97
pp.17-22
QIT
(2nd)		 2023-12-18
16:05		 Okinawa OIST
(Primary: On-site, Secondary: Online)		 Multiplexed Inter-node Communication in Distributed Quantum Computing
Soshun Naito (Univ. of Tokyo), Yasunari Suzuki, Yuuki Tokunaga (NTT) 		In fault-tolerant quantum computing, a large number of physical qubits are required to construct a single logical qubit,... [more]
QIT
(2nd)		 2023-05-30
14:15		 Kyoto Katsura Campus, Kyoto University Circuit optimization of quantum phase estimation with Pauli product set
Yuki Koizumi (Tokyo Univ.), Yasunari Suzuki, Yuuki Tokunaga (NTT CD Labs) 		Quantum phase estimation is a quantum algorithm that can extract Hamiltonian spectra, and it is suggested as one of the ... [more]
RCS, SR, SRW
(Joint)		 2023-03-02
10:50		 Tokyo Tokyo Institute of Technology, and Online
(Primary: On-site, Secondary: Online)		 A Numerical Study of Quantum Speedup for Maximum Likelihood Detection of Power-Domain NOMA
Masaya Norimoto, Naoki Ishikawa (Yokohama National Univ.) SR2022-86		 We investigate whether a quantum exhaustive search algorithm, Grover adaptive search (GAS), provides quadratic speedup i... [more] SR2022-86
pp.11-15
DC 2022-12-16
13:50		 Yamaguchi
(Primary: On-site, Secondary: Online)		 Evaluation of Fault Tolerance in Stochastic Computing Based Neural Network Inference Accelerators
Ryoga Nagashima, Stefan Holst, Xiaoqing Wen (Kyutech) DC2022-74		 In recent years, neural networks have become increasingly complex. Stochastic computing (SC) techniques are currently be... [more] DC2022-74
pp.12-16
RECONF 2022-06-07
14:25		 Ibaraki CCS, Univ. of Tsukuba
(Primary: On-site, Secondary: Online)		 Performance Evaluation of Fault-Tolerant Routing Methods Using NAS Parallel Benchmarks
Yota Kurokawa, Masaru Fukushi (Yamaguchi Univ.) RECONF2022-4		 This paper proposes an evaluation method of fault-tolerant routing methods developed for Network-on-Chips (NoCs) using p... [more] RECONF2022-4
pp.20-25
QIT
(2nd)		 2022-05-31
13:10		 Online Online Compiler Backend for Surface Code Quantum Computing by Lattice Surgery
Ryo Wakizaka (Kyoto Univ), Yasunari Suzuki, Yuuki Tokunaga (NTT) 		Recently, surface code using lattice surgery has been studied widely because it may realize large-scale and fault-tolera... [more]
PN, NS, OCS
(Joint)		 2021-06-25
14:25		 Online Online Fault-Tolerant Multi-Path Routing Method under High Network Failure Environment
Taichi Okumura, Masaki Murakami, Yoshihiko Uematsu, Satoru Okamoto, Naoaki Yamanaka (Keio Univ.) PN2021-10		 Networks consisting of many devices require fault-tolerant methods to prepare for device failures. On the other hand, re... [more] PN2021-10
pp.33-39
QIT
(2nd)		 2020-12-10
16:10		 Online Online Quantum error mitigation for fault-tolerant quantum computing
Yasunari Suzuki, Suguru Endo (NTT), Keisuke Fujii (Osaka Univ.), Yuuki Tokunaga (NTT) 		Fault-tolerant quantum computing (FTQC) implements universal quantum computing while suppressing physical errors via qua... [more]
QIT
(2nd)		 2019-11-19
12:10		 Tokyo Gakushuin University Conditions for equivalence of magic state distillation protocols in prime dimension at least 5
Yasuhiro Kondo, Ryuhei Mori (Tokyo Tech) 		Magic state distillation protocol is necessary for quantum fault-tolerant computation.
There are two well-known methods... [more]
MI, MICT [detail] 2019-11-05
16:10		 Ibaraki Univ. of Tsukuba [Short Paper] Proposal of fault-tolerant CT image reconstruction using Nonlocal Total Variation and its application to metal artifact reduction
Kazuki Chigita (Univ. Tsukuba), Jian Dong (TUTE), Yongchae Kim, Hiroyuki Kudo (Univ. Tsukuba) MICT2019-37 MI2019-64		 When some abnormal data is included in the projection data, the normal image reconstruction method increases the influen... [more] MICT2019-37 MI2019-64
pp.55-56
IN, NS
(Joint)		 2019-03-05
16:20		 Okinawa Okinawa Convention Center Fault-tolerant flow- based programming engine using distributed non-blocking processing
Yu Nakata, Masafumi Kinoshita (Hitachi) IN2018-146		 To utilize data for business improvement, it is necessary to analyze the value of data by a domain expert who is familia... [more] IN2018-146
pp.373-378
DC 2019-02-27
15:10		 Tokyo Kikai-Shinko-Kaikan Bldg. State Encoding with Stochastic Numbers for Transient Fault Tolerant Linear Finite State Machines
Yuki Maeda, Hideyuki Ichihara, Tsuyoshi Iwagaki, Tomoo Inoue (Hiroshima City Univ.) DC2018-81		 Stochastic Computing (SC) has attractive characteristics, compared with deterministic (or general binary) computing, suc... [more] DC2018-81
pp.61-66
MoNA 2018-08-02
14:05		 Hokkaido Otaru Citizen Center Extended GEDIR Routing with Detection of Node Failure
Naoshi Yakura, Hiroaki Higaki (Tokyo Denki Univ.) MoNA2018-7		 In data message transmissions in wireless ad-hoc networks, it is assumed that all wireless node correctly work in accord... [more] MoNA2018-7
pp.7-12
CPSY, DC, IPSJ-ARC
(Joint) [detail]		 2018-07-30
17:00		 Kumamoto Kumamoto City International Center An Efficient Implementation Method and Development of Demonstration Environment for Byzantine Fault Tolerant Systems
Masashi Imai, Takeru Nanao, Yudai Ishikawa, Koutaro Inaba (Hirosaki Univ.) DC2018-15		 Threats for mission critical systems increase every year. Traditionally, the target fault model of fault–tolerant system... [more] DC2018-15
pp.13-18
VLD, HWS
(Joint)		 2018-02-28
16:30		 Okinawa Okinawa Seinen Kaikan Reconfiguration for Fault Tolerant FPGA Considering Incremental Multiple Faults
Cheng Ma, Mineo Kaneko (JAIST) VLD2017-101		 The report treats the reconfiguration-based fault-tolerance for FPGA applications, and proposes a method of finding a ch... [more] VLD2017-101
pp.73-78
VLD, HWS
(Joint)		 2018-02-28
16:55		 Okinawa Okinawa Seinen Kaikan Reliability Evaluation of Mixed Error Correction Scheme for Soft-Error Tolerant Datapaths
Junghoon Oh, Mineo Kaneko (JAIST) VLD2017-102		 Among several problems with miniaturization of LSIs, soft-errors are one of serious problems to make reliability worse. ... [more] VLD2017-102
pp.79-84
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