Acceleration of Differential Power Analysis through the Parallel Use of GPU and CPU
スポンサーリンク
概要
- 論文の詳細を見る
This paper proposes methods for accelerating DPA by using the CPU and the GPU in a parallel manner. The overhead of naive DPA evaluation software increases excessively as the number of points in a trace or the number of traces is enlarged due to the rapid increase of file I/O overhead. This paper presents some techniques, with respect to DPA-arithmetic and file handling, which can make the overhead of DPA software become not extreme but gradual as the increase of the amount of trace data to be processed. Through generic experiments, we show that the software, equipped with the proposed methods, using both CPU and GPU can shorten the time for evaluating the DPA resistance of devices by almost half.
- 2010-09-01
著者
-
LEE Sung
Korea Information Security Agency (KISA)
-
SEO Seog
Graduate School of Information Management and Security, Korea University
-
HONG Seokhie
Graduate School of Information Management and Security, Korea University
-
LEE Sangjin
Graduate School of Information Management and Security, Korea University
-
Han Dong‐guk
Kookmin Univ. Seoul Kor
-
Han Dong-guk
Dept. Of Mathematics Kookmin University
-
Seo Seog
Graduate School Of Information Management And Security Korea University
-
Lee Sung
Korea Atomic Energy Research Institute
-
Hong Seokhie
Graduate School Of Information Management And Security Korea University
関連論文
- Acceleration of Differential Power Analysis through the Parallel Use of GPU and CPU
- I16 VIDEO-ASSISTED THORACOSCOPIC SURGERY : KOREA UNIVERSITY EXPERIENCE(International Invertigator Awards)
- Countermeasures against Power Analysis Attacks for the NTRU Public Key Cryptosystem
- TinyECCK16 : An Efficient Field Multiplication Algorithm on 16-bit Environment and Its Application to Tmote Sky Sensor Motes
- TinyECCK : Efficient Elliptic Curve Cryptography Implementation over GF(2^m) on 8-Bit Micaz Mote
- Cryptanalysis of Ha-Moon's Countermeasure of Randomized Signed Scalar Multiplication(Discrete Mathematics and Its Applications)
- Acceleration of Differential Power Analysis through the Parallel Use of GPU and CPU
- Ion Exchange Characteristics of Palladium and Rhodium from a Simulated Radioactive Liquid Waste
- Hydrochemistry and genesis of CO_2-rich springs from Mesozoic granitoids and their adjacent rocks in South Korea
- A More Compact Representation of XTR Cryptosystem
- Efficient Implementation of Pairing-Based Cryptography on a Sensor Node
- Performance Improvement of Power Analysis Attacks on AES with Encryption-Related Signals