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A Data Locality Optimizing Algorithm
, 1991
"... This paper proposes an algorithm that improves the locality of a loop nest by transforming the code via interchange, reversal, skewing and tiling. The loop transformation algorithm is based on two concepts: a mathematical formulation of reuse and locality, and a loop transformation theory that unifi ..."
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Cited by 796 (16 self)
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This paper proposes an algorithm that improves the locality of a loop nest by transforming the code via interchange, reversal, skewing and tiling. The loop transformation algorithm is based on two concepts: a mathematical formulation of reuse and locality, and a loop transformation theory
The Retinoblastoma Protein and CellCycle Control
 Cell
, 1995
"... pRB, the product of the retinoblastoma tumor suppressor gene, operates in the midst of the cell cycle clock apparatus. Its main role is to act as a signal transducer connecting the cell cycle clock with the transcriptional machinery. In this role, pRB allows the clock to control the expression of b ..."
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Cited by 422 (4 self)
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pRB, the product of the retinoblastoma tumor suppressor gene, operates in the midst of the cell cycle clock apparatus. Its main role is to act as a signal transducer connecting the cell cycle clock with the transcriptional machinery. In this role, pRB allows the clock to control the expression of banks of genes that mediate advance of the cell through a critical phase of its growth cycle. Loss of pRB function deprives the clock and thus the cell of an important mechanism for braking cell proliferation through modulation of gene expression. pRB and the G1 Restriction Point pRB exerts most and perhaps all of its effects in a defined window of time in the first two thirds of the G1 phase of the cell cycle. As demonstrated by Pardee almost two decades ago, this is the time window during which the mam
Elementary Gates for Quantum Computation
, 1995
"... We show that a set of gates that consists of all onebit quantum gates (U(2)) and the twobit exclusiveor gate (that maps Boolean values (x, y)to(x, x⊕y)) is universal in the sense that all unitary operations on arbitrarily many bits n (U(2 n)) can be expressed as compositions of these gates. We in ..."
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Cited by 274 (11 self)
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We show that a set of gates that consists of all onebit quantum gates (U(2)) and the twobit exclusiveor gate (that maps Boolean values (x, y)to(x, x⊕y)) is universal in the sense that all unitary operations on arbitrarily many bits n (U(2 n)) can be expressed as compositions of these gates. We
TwoBit Gates Are Universal for Quantum Computation
, 1995
"... A proof is given, which relies on the commutator algebra of the unitary Lie groups, that quantum gates operating on just two bits at a time are sufficient to construct a general quantum circuit. The best previous result had shown the universality of threebit gates, by analogy to the universality of ..."
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Cited by 180 (9 self)
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A proof is given, which relies on the commutator algebra of the unitary Lie groups, that quantum gates operating on just two bits at a time are sufficient to construct a general quantum circuit. The best previous result had shown the universality of threebit gates, by analogy to the universality
2475–2479 This journal is © The Royal Society of Chemistry 2008 Pu bl ish ed o n M ar ch 8. D ow nl oa de d by P en ns yl va ni a St at e U ni ve rs ity o n /0
, 2008
"... First published as an Advance Article on the web 3rd January 2001 The electrochemical generation and characterisation of a variety of oquinodimethanes (oQDMs) are described together with the outcome of preparative experiments in which they are key intermediates. The quinodimethanes are convenientl ..."
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Cited by 339 (7 self)
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First published as an Advance Article on the web 3rd January 2001 The electrochemical generation and characterisation of a variety of oquinodimethanes (oQDMs) are described together with the outcome of preparative experiments in which they are key intermediates. The quinodimethanes are conveniently formed, in DMF, by both direct and redoxcatalysed electroreduction of 1,2bis(halomethyl)arenes. Their predominant reaction is polymerisation to poly(oxylylene) (oPX) polymers. In the presence of dienophiles the electrogenerated oQDMs may undergo efficient cycloaddition reaction and distinctions between the possible mechanisms have been attempted on the basis of voltammetric, preparative and stereochemical experiments. Contrary to the precedent of the corresponding methyl ester, diphenyl maleate radicalanion isomerises only slowly to the fumarate radicalanion, yet coelectrolysis of 2,3bis(bromomethyl)1,4dimethoxybenzene and diphenyl maleate or diphenyl fumarate gives exclusively the corresponding transadduct. Coelectrolysis of dimethyl maleate with either 1,2bis(bromomethyl)benzene (more easily reduced) or 2,3bis(bromomethyl)1,4dimethoxybenzene (less easily reduced) gave only oPX polymer. The results are rationalised in terms of a double nucleophilic substitution mechanism where electron transfer between dienophile radicalanion and dihalide is relatively slow. Where electron transfer from maleate or fumarate radicalanions is likely to be fast oquinodimethanes are formed by redoxcatalysis and they polymerise rather than undergo Diels–Alder reaction. Dimerisation of the dienophile radicalanions, with k2 = 104 to 105 M1 s1, does not apparently compete with nucleophilic substitution or, where relevant, electron transfer.
Network Centric Warfare: Developing and Leveraging Information Superiority
 Command and Control Research Program (CCRP), US DoD
, 2000
"... the mission of improving DoD’s understanding of the national security implications of the Information Age. Focusing upon improving both the state of the art and the state of the practice of command and control, the CCRP helps DoD take full advantage of the opportunities afforded by emerging technolo ..."
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Cited by 308 (5 self)
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the mission of improving DoD’s understanding of the national security implications of the Information Age. Focusing upon improving both the state of the art and the state of the practice of command and control, the CCRP helps DoD take full advantage of the opportunities afforded by emerging technologies. The CCRP pursues a broad program of research and analysis in information superiority, information operations, command and control theory, and associated operational concepts that enable us to leverage shared awareness to improve the effectiveness and efficiency of assigned missions. An important aspect of the CCRP program is its ability to serve as a bridge between the operational, technical, analytical, and educational communities. The CCRP provides leadership for the command and control research community by: n n
On Universality of Ternary Reversible Logic Gates
"... A set of pvalued logic gates (primitives) is called universal if an arbitrary pvalued logic function can be realized by a logic circuit built up from a finite number of gates belonging to this set. In the paper, we consider the problem of determining the number of universal ternary reversible logi ..."
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A set of pvalued logic gates (primitives) is called universal if an arbitrary pvalued logic function can be realized by a logic circuit built up from a finite number of gates belonging to this set. In the paper, we consider the problem of determining the number of universal ternary reversible
1 A New Approach of Presenting Universal Reversible
"... Quantum dot Cellular Automata (QCA) is an emerging digital logic representation techniques and one of the possible alternatives to Complementary Metal–Oxide–Semiconductor (CMOS) technology. It satisfies attractive circuit components of smaller size and low power dissipation of new circuit design tec ..."
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technologies. Quantum dots are nano architecture and it works based on columbic interaction between two electrons. This paper presents Universal Reversible Gate based on QCA logic gates. For simulating and verifying the proposed gate QCA Designer a familiar simulation and verification tools has been employed
Fast synthesis of exact minimal reversible circuits using group theory
 In Proceedings of the IEEE Asia and South Pacific Design Automation Conference
, 2005
"... We present fast algorithms to synthesize exact minimal reversible circuits for various types of gates and costs. By reducing reversible logic synthesis problems to group theory problems, we use the powerful algebraic software GAP to solve such problems. Our approach is not only able to minimize for ..."
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Cited by 11 (5 self)
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for arbitrary cost functions of gates, but also faster than the existing approaches to reversible logic synthesis. In addition, we show that the Peres gate is a better choice than the standard Toffoli gate in libraries of universal reversible gates.
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