--- Log opened Fri May 08 00:00:19 2020 00:39 -!- jonatack [~jon@2a01:e0a:53c:a200:bb54:3be5:c3d0:9ce5] has joined #secp256k1 00:39 -!- jonatack [~jon@2a01:e0a:53c:a200:bb54:3be5:c3d0:9ce5] has quit [Client Quit] 00:40 -!- jonatack [~jon@2a01:e0a:53c:a200:bb54:3be5:c3d0:9ce5] has joined #secp256k1 01:52 -!- x1ddos [~alex@213.144.147.16] has joined #secp256k1 05:18 -!- GAit [~GAit@unaffiliated/gait] has quit [Ping timeout: 256 seconds] 05:18 -!- GAit [~GAit@unaffiliated/gait] has joined #secp256k1 05:24 -!- kcalvinalvin [~kcalvinal@ec2-52-79-199-97.ap-northeast-2.compute.amazonaws.com] has quit [Ping timeout: 256 seconds] 05:27 -!- kcalvinalvin [~kcalvinal@ec2-52-79-199-97.ap-northeast-2.compute.amazonaws.com] has joined #secp256k1 05:55 -!- roconnor [~roconnor@host-45-58-197-21.dyn.295.ca] has quit [Ping timeout: 272 seconds] 06:14 -!- roconnor [~roconnor@host-45-78-202-46.dyn.295.ca] has joined #secp256k1 07:25 -!- BlueMatt [~BlueMatt@unaffiliated/bluematt] has quit [Ping timeout: 256 seconds] 07:25 -!- BlueMatt_ [~BlueMatt@ircb.bluematt.me] has joined #secp256k1 08:36 -!- x1ddos [~alex@213.144.147.16] has quit [Ping timeout: 260 seconds] 08:38 -!- x1ddos [~alex@89.187.165.52] has joined #secp256k1 09:24 -!- x1ddos [~alex@89.187.165.52] has quit [Ping timeout: 272 seconds] 09:25 -!- x1ddos [~alex@213.144.147.16] has joined #secp256k1 09:29 -!- instagibbs [~instagibb@pool-71-178-191-230.washdc.fios.verizon.net] has quit [Ping timeout: 264 seconds] 09:29 -!- instagibbs [~instagibb@pool-71-178-191-230.washdc.fios.verizon.net] has joined #secp256k1 09:44 -!- dongcarl [~dongcarl@unaffiliated/dongcarl] has quit [Read error: Connection reset by peer] 10:21 < nsh> would there be some utility in using residue numbering system in libsecp256k1? 10:22 < nsh> e.g. "A new algorithm for modular multiplication in the residue number system (RNS) is presented. Modular reduction is performed using a sum of residues. As all of the residues can be evaluated simultaneously, the algorithm permits a highly parallel implementation and is suitable for performing public-key cryptography operations with very low latency." - https://www.researchgate.net/publication/220538070_Highly_parallel_modular_multiplication_in_the_residue_nu 10:22 < nsh> mber_system_using_sum_of_residues_reduction 10:22 < nsh> ( https://www.researchgate.net/publication/220538070_Highly_parallel_modular_multiplication_in_the_residue_number_system_using_sum_of_residues_reduction ) 10:23 < nsh> and "In this paper, we present an algorithm to calculate the precise value of “X mod p ”directly in the RNS representation of an integer. The pipe-lined, non-pipe-lined, and parallel hardware architectures are proposed and implemented on XILINX FPGAs." - https://www.mdpi.com/2410-387X/3/2/14/pdf 12:10 -!- real_or_random [~real_or_r@173.249.7.254] has quit [Quit: ZNC 1.7.5 - https://znc.in] 12:12 -!- real_or_random [~real_or_r@2a02:c207:3002:7468::1] has joined #secp256k1 12:29 -!- BlueMatt_ [~BlueMatt@ircb.bluematt.me] has left #secp256k1 [] 12:30 -!- BlueMatt [~BlueMatt@ircb.bluematt.me] has joined #secp256k1 12:30 -!- BlueMatt is now known as Guest41060 12:31 -!- Guest41060 [~BlueMatt@ircb.bluematt.me] has quit [Changing host] 12:31 -!- Guest41060 [~BlueMatt@unaffiliated/bluematt] has joined #secp256k1 13:07 -!- x1ddos [~alex@213.144.147.16] has quit [Ping timeout: 264 seconds] 13:07 -!- x1ddos [~alex@89.187.165.34] has joined #secp256k1 13:09 -!- Guest41060 [~BlueMatt@unaffiliated/bluematt] has left #secp256k1 ["Ex-Chat"] 13:09 -!- Guest41060 [~BlueMatt@unaffiliated/bluematt] has joined #secp256k1 13:47 -!- Guest41060 is now known as BlueMatt 15:11 -!- jnewbery [~john@cpe-74-72-241-241.nyc.res.rr.com] has quit [Quit: leaving] 15:30 -!- x1ddos [~alex@89.187.165.34] has quit [Ping timeout: 256 seconds] 15:36 -!- jnewbery [~john@cpe-74-72-241-241.nyc.res.rr.com] has joined #secp256k1 --- Log closed Sat May 09 00:00:15 2020