Paul Kocher, Joshua Jaffe, and Benjamin Jun. Differential Power Analysis. Lecture Notes in Computer Science, 1666:388--397, 1999.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....susceptible to fault induction, timing attacks or power analysis attacks. Boneh, DeMillo and Lipton discuss the importance of checking for protocol faults in [13] Paul Kocher offers cryptanalysis using timing attacks in [59] Kocher, Jaffe and Jun discuss differential power analysis in [58]. Kaliski and Robshaw discuss various attacks against cryptographic devices in [56] Location privacy risks present in Bluetooth technology and relevant to RFID systems are addressed by Jakobsson and Wetzel in [51] Chapter 2 contains a brief primer on RFID systems components, the interaction ....

Paul Kocher, Joshua Jaffe, and Benjamin Jun. Differential Power Analysis. Lecture Notes in Computer Science, 1666:388--397, 1999.

....Information Leakage Most protocols that a CPUF could be involved in require that some information being processed in the device remain private. Unfortunately devices tend to leak information in many ways. Power analysis, in particular, has attracted considerable attention in recent years [15], but it is not alone [18, 2] Therefore CPUFs must be designed with the possibility of information leaks in mind if they involve any manipulation of private data. Causing a CPUF to Misbehave In the case of a CPUF, the adversary can attack the control logic that surrounds the PUF. He could do so ....

Paul Kocher, Joshua Ja#e, and Benjamin Jun. Di#erential power analysis. Lecture Notes in Computer Science, 1666:388--397, 1999.

....to RFID devices. Cautionary information regarding the implementation of AES in smart cards is presented in [7] Being passively powered and relying on a wireless interface may make RFID devices especially susceptible to fault induction, timing attacks or power analysis attacks, highlighted in [4, 16, 15] and [14] Location privacy risks present in Bluetooth technology and relevant to RFID systems are addressed in [12] In this paper, Section 2 gives a brief introduction to RFID system components, describes the interface between tags and readers, and presents estimates of the capacities of ....

Paul Kocher, Joshua Jaffe, and Benjamin Jun. Differential Power Analysis. Lecture Notes in Computer Science, 1666:388--397, 1999.

....science, the underlying structure is a tree. For several fundamental algorithmic problems on tree, optimal parallel algorithms are known. For example, computing Euler tour and several functions on tree [13] evaluating expression tree [2] lowest common ancestor [11] dictionaries on 2 3 trees [10]. Enumerating paths between pairs of nodes is one of the fundamental operation on trees. For instance, a request for reporting a path from a vertex in a connected graph to another vertex in the graph can be reduced to the corresponding path query on any spanning tree of the graph [12] ....

.... use the following tools previously developed in the area of parallel computing: parallel merge sort [1] list ranking and doubling, parallel 4 prefix sums (e.g. see [8, 9] tree operations including the Euler tour technique [13] lowest common ancestor in a tree [11] searching in search trees [10]. The remainder of the paper is organized as follows. In Section 2, we prove several basic technical lemmas. In Section 3 we describe and analyze the tree preprocessing step and then provide the optimal algorithms for reporting paths relying on the preprocessing. In Section 4 we conclude with a ....

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W. Paul, U. Vishkin and H. Wagener. Parallel dictionaries on 2-3 trees. Proc. 10th ICALP, Lecture Notes in Computer Science, Vol. 154, pp. 597-609, 1983.

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