Complexity Zoo References
Main Zoo - Complexity Garden - Zoo Glossary - Zoo References
A - B - C - D - E - F - G - H - I - J - K - L - M - N - O - P - Q - R - S - T - U - V - W - X - Y - Z
A
[Aar02] S. Aaronson. Quantum lower bound for the collision problem, Proceedings of ACM STOC'2002, pp. 635-642, 2002. arXiv:quant-ph/0111102.
[Aar03] S. Aaronson. Lower bounds for local search by quantum arguments, Proceedings of ACM STOC 2004. arXiv:quant-ph/0307149, ECCC TR03-057.
[Aar03b] S. Aaronson. Multilinear formulas and skepticism of quantum computing, Proceedings of ACM STOC 2004. arXiv:quant-ph/0311039, ECCC TR03-079.
[Aar04b] S. Aaronson. Limitations of quantum advice and one-way communication, Proceedings of IEEE Complexity 2004, pp. 320-332, 2004. arXiv:quant-ph/0402095, ECCC TR04-026.
[Aar05] S. Aaronson. Quantum computing and hidden variables, Physical Review A 71:032325, March 2005. arXiv:quant-ph/0408035.
[Aar05b] S. Aaronson. Quantum computing, postselection, and probabilistic polynomial-time, Proceedings of the Royal Society A, 461(2063):3473-3482, 2005. arXiv:quant-ph/0412187.
[Aar05c] S. Aaronson. NP-complete problems and physical reality. ACM SIGACT News, March 2005 quant-ph/0502072.
[Aar06] S. Aaronson. Oracles are subtle but not malicious, Proceedings of IEEE Complexity 2006, 2006. arXiv:cs.CC/0504048, ECCC TR05-040.
[Aar06b] S. Aaronson. QMA/qpoly is contained in PSPACE/poly: de-Merlinizing quantum protocols, Proceedings of IEEE Complexity 2006, 2006. arXiv:quant-ph/0510230.
[AK06] S. Aaronson and G. Kuperberg. Quantum versus classical proofs and advice, submitted, 2006. arXiv:quant-ph/0604056.
[ABFL2014] S. Aaronson, A. Bouland, J. Fitzsimons, M. Lee The space "just above" BQP arXiv:arxiv.org/abs/1412.6507
[AB00] E. Allender and D. A. M. Barrington. Uniform Circuits for Division: Consequences and Problems. J. Comput. System Sci. 65 (2002), no. 4, 695--716. ECCC TR00-65, 2000.
[ABD+08] S. Aaronson, S. Beigi, A. Drucker, et al. The power of unentanglement, Electronic Colloquium on Computational Complexity, ECCC Report TR08-051, accepted on May 02, 2008. http://eccc.hpi-web.de/eccc-reports/2008/TR08-051/index.html
[ABF+94] J. Aspnes, R. Beigel, M. L. Furst, and S. Rudich. The expressive power of voting polynomials, Combinatorica 14(2):135-148, 1994. http://www.cs.yale.edu/~aspnes/stoc91voting.ps
[ABK+02] E. Allender, H. Buhrman, M. Koucký, D. van Melkebeek, and D. Ronneburger. Power from random strings, Proceedings of IEEE FOCS'2002, pp. 669-678, 2002. ECCC TR02-028.
[ABL98] A. Ambainis, D. M. Barrington, and H. LêThanh. On counting AC0 circuits with negative constants, Proceedings of MFCS (Mathematical Foundations of Computer Science), pp. 419-427, 1998. ECCC TR98-020.
[ABO99] E. Allender, R. Beals, and M. Ogihara. The complexity of matrix rank and feasible systems of linear equations, Computational Complexity 8(2):99-126, 1999. ECCC TR96-024, DIMACS TR 97-40.
[ABV95] W. Aiello, M. Bellare, and R. Venkatesan. Knowledge on the average - perfect, statistical, and logarithmic, Proceedings of ACM STOC'95, 1995.
[ACG+99] G. Ausiello, P. Crescenzi, G. Gambosi, V. Kann, A. Marchetti-Spaccamela, and M. Protasi. Complexity and Approximation: Combinatorial optimization problems and their approximability properties, Springer-Verlag, 1999. See also "A compendium of NP optimization problems" (P. Crescenzi and V. Kann, eds.), http://www.nada.kth.se/~viggo/wwwcompendium/.
[ADH97] L. Adleman, J. DeMarrais, and M. Huang. Quantum computability, SIAM Journal on Computing 26:1524-1540, 1997.
[Adl78] L. Adleman. Two theorems on random polynomial time. FOCS 78.
[AFM01] L. Antuñes, L. Fortnow, and D. van Melkebeek. Computational depth, Proceedings of IEEE Complexity'01, pp. 266-273, 2001. http://people.cs.uchicago.edu/~fortnow/papers/depth.ps
[AG00] C. Alvarez and R. Greenlaw. A compendium of problems complete for symmetric logarithmic space, Journal of Computational Complexity 9:73-95, 2000. ECCC TR96-039.
[AG04] S. Aaronson and D. Gottesman. Improved Simulation of Stabilizer Circuits, Phys. Rev. A 70, 052328, 2004. arXiv:quant-ph/0406196.
[AGH90] W. Aiello, S. Goldwasser, and J. Håstad. On The Power Of Interaction. Combinatorica 10 (1990), no. 1, 3--25.
[AGK07] D. Aharonov, D. Gottesman, and J. Kempe;stad. The power of quantum systems on a line. FOCS 2007.
[Agr01] M. Agrawal. For completeness, sublogarithmic space is no space, Information Processing Letters (82), 2001-2002, iss. 6, 321-325. http://www.cse.iitk.ac.in/~manindra/isomorphism/sublog-completeness.pdf
[AJT83] M. Ajtai. Σ-1-1-Formulae on finite structures, Annals of Pure and Applied Logic (24), 1983, 1-48.
[AH87] L. Adleman and M. Huang. Recognizing primes in random polynomial time, Proceedings of ACM STOC'87, pp. 462-470, 1987.
[AH87b] W. Aiello and J. Håstad. Perfect zero-knowledge languages can be recognized in two rounds, Proceedings of IEEE FOCS 1987, pp. 439-448, 1987.
[AIK04] B. Applebaum, Y. Ishai, and E. Kushilevitz. Cryptography in NC0, Proceedings of IEEE FOCS 2004. http://www.cs.technion.ac.il/~yuvali/pubs/AIK04.ps.
[AJ93] C. Alvarez and B. Jenner. A very hard log-space counting class, Theoretical Computer Science 107:3-30, 1993.
[AK02] V. Arvind and P. Kurur. Graph isomorphism is in SPP, ECCC TR02-037, 2002.
[AK06] S. Aaronson and G. Kuperberg. Quantum Versus Classical Proofs and Advice. arXiv:quant-ph/0604056, 2006.
[AK96] F. Ablayev and M. Karpinski. On the power of randomized branching programs, Proceedings of the International Colloquium on Automata, Languages, and Programming (ICALP), Springer-Verlag 1099, pp. 348-356, 1996. ECCC TR95-054, DIMACS TR 96-46.
[AKL+79] R. Aleliunas, R. M. Karp, R. J. Lipton, L. Lovász, and C. Rackoff. Random walks, traversal sequences, and the complexity of maze problems, Proceedings of IEEE FOCS'79, pp. 218-223, 1979.
[AKR+03] E. Allender, M. Koucký, D. Ronneburger, et al. Derandomization and distinguishing complexity, Proceedings of the 18th Annual IEEE Conference on Computational Complexity, 209-220.
[AKS94] V. Arvind, J. Köbler and R. Schuler. On helping and interactive proof systems, Algorithms and Computation: 5th International Symposium, 137-145.
[AKS02] M. Agrawal, N. Kayal, and N. Saxena. Primes is in P, Annals of Mathematics, 160 (2004), 781-793. http://www.cse.iitk.ac.in/primality.pdf.
[AKS+95] V. Arvind, J. Köbler, U. Schöning, and R. Schuler. If NP has polynomial-size circuits, then MA=AM, Theoretical Computer Science 137, 1995. http://www.informatik.hu-berlin.de/Institut/struktur/algorithmenII/Papers/ma-am.ps.gz
[All96] E. Allender. Circuit complexity before the dawn of the new millennium, Proceedings of the 16th Annual Conference on Foundations of Software Technology and Theoretical Computer Science (FST&TCS), Lecture Notes in Computer Science 1180, pp. 1-18, 1996. DIMACS TR 97-49.
[All99] E. Allender. The permanent requires large uniform threshold circuits, Chicago Journal of Theoretical Computer Science 7, 1999. DIMACS TR 97-51.
[ALM+98] S. Arora, C. Lund, R. Motwani, M. Sudan, and M. Szegedy. Proof verification and hardness of approximation problems, Journal of the ACM 45(3):501-555, 1998. ECCC TR98-008.
[AM04] R. Alur and P. Madhusudan. Visibly Pushdown Languages, Proceedings of ACM STOC'04, 2004., 202-211.
[AM09] R. Alur and P. Madhusudan. Adding Nesting Structure to Words., Journal of the ACM 56(3), Article 16, May 2009.
[AMP02] F. Ablayev, C. Moore, and C. Pollett. Quantum and stochastic branching programs of bounded width, Proceedings of the International Colloquium on Automata, Languages, and Programming (ICALP), 2002. arXiv:quant-ph/0201139, ECCC TR02-013.
[AMS06] N. Alon, D. Moshkovitz, and S. Safra. Algorithmic construction of sets for k-restrictions, ACM Transactions on Algorithms (TALG) 2(2): 153–177, 2006. doi:10.1145/1150334.1150336
[AN02] D. Aharonov and T. Naveh. Quantum NP - a survey, arXiv:quant-ph/0210077.
[AP95] G. Ausiello and M. Protasi Local search, reducibility, and approximability of NP optimization problems, Information Processing Letters 54:73-79, 1995.
[AR01] M. Alekhnovich and A. A. Razborov. Resolution is not automatizable unless W[P] is tractable, Proceedings of IEEE FOCS'01, pp. 210-219, 2001.
[AR03] D. Aharonov and O. Regev. A lattice problem in quantum NP, arXiv:quant-ph/0307220.
[AR88] E. Allender and R. Rubinstein. P-printable sets, SIAM Journal on Computing 17(6):1193-1202, 1988.
[Aro96] S. Arora. Polynomial time approximation scheme for Euclidean TSP and other geometric problems, Proceedings of IEEE FOCS'96, pp. 2-11, 1996. http://www.cs.princeton.edu/~arora/pubs/tsp1.ps
[ARZ99] E. Allender, K. Reinhardt, and S. Zhou. Isolation, matching, and counting: uniform and nonuniform upper bounds, Journal of Computer and System Sciences 59:164-181, 1999. http://www.cs.rutgers.edu/pub/allender/matching.pdf.
[AS94] E. Allender and M. Strauss. Measure on small complexity classes with applications for BPP, Proceedings of IEEE FOCS'94, pp. 807-818, 1994. ECCC TR94-004, DIMACS TR 94-18.
[AS98] S. Arora and M. Safra. Probabilistic checking of proofs: a new characterization of NP, Journal of the ACM 45(1):70-122, 1998. http://www.cs.princeton.edu/~arora/pubs/as.ps.
[ASV00] A. Ambainis, L. Schulman, and U. Vazirani. Quantum computing with highly mixed states, Proceedings of ACM STOC'2000, pp. 705-714, 2000. arXiv:quant-ph/0003136.
[ATW+00] R. Armoni, A. Ta-Shma, A. Wigderson, and S. Zhou. An O(log(n)4/3) algorithm for (s,t) connectivity in undirected graphs, Journal of the ACM 47(2):294-311, 2000. http://whiteboard.cs.tau.ac.il/~amnon/Papers/ATWZ.jacm00.pdf
[AV04] V. Arvind and T. C. Vijayaraghavan. Abelian permutation group problems and logspace counting classes, Proceedings of the 19th IEEE Conference on Computational Complexity, .
[AW90] E. Allender and K. W. Wagner. Counting hierarchies: polynomial time and constant depth circuits, Bulletin of the EATCS 40, February 1990. http://people.cs.uchicago.edu/~fortnow/beatcs/column40.ps.
B
[Bab85] L. Babai. Trading Group Theory for Randomness. In 17th STOC, pages 421--429, 1985.
[Bab87] L. Babai. Random oracles separate PSPACE from the polynomial-time hierarchy. Information Processing Letters, 26 (1987) 51-53.
[Bar02] B. Barak. A probabilistic-time hierarchy theorem for "slightly non-uniform" algorithms, Proceedings of RANDOM'2002, 2002. http://www.math.weizmann.ac.il/~/boaz/Papers/bptime.ps
[Bar89] D. A. M. Barrington. Bounded-width polynomial-size branching programs can recognize exactly those languages in NC1, Journal of Computer and System Sciences 38:150-164, 1989.
[Baz95] C. Bazgan. Approximation de problèmes d'optimisation et de fonctions totales de NP, PhD thesis, INRIA, Orsay, France, 1998. http://l1.lamsade.dauphine.fr/~bazgan/Papers/these.ps
[BB12] M. Bläser and B. Manthey. Smoothed Complexity Theory, Proceedings of the 37th Int. Symp. on Mathematical Foundations of Computer Science, 2012. ArXiv: 1202.1936.
[BB92] A. Berthiaume and G. Brassard. The quantum challenge to structural complexity theory. Proceedings of Structure in Complexity Theory, 1992, 132--137.
[BBB+97] C. H. Bennett, E. Bernstein, G. Brassard, and U. Vazirani. Strengths and weaknesses of quantum computing, SIAM Journal on Computing, 26(5):1510-1523, 1997. arXiv:quant-ph/9701001.
[BBF98] R. Beigel, H. Buhrman, and L. Fortnow. NP might not be as easy as detecting unique solutions, Proceedings of ACM STOC'98, pp. 203-208, 1998. http://people.cs.uchicago.edu/~fortnow/papers/newiso.ps.
[BBR94] D. A. M. Barrington, R. Beigel, and S. Rudich. Representing Boolean functions as polynomials modulo composite integers, Computational Complexity, 4:367-382, 1994. http://www.cis.temple.edu/~beigel/papers/bbr-mods-cc.html.
[BBS86] J. Balcázar, R. Book, and U. Schöning. Sparse sets, lowness, and highness, SIAM Journal on Computing 15:739-747, 1986.
[BCE+95] P. Beame, S. Cook, J. Edmonds, R. Impagliazzo, and T. Pitassi. The relative complexity of NP search problems, Proceedings of ACM STOC'95, pp. 303-314, 1995. http://www.cs.washington.edu/homes/beame/search.ps
[BCH86] P. Beame, S. Cook, and J. Hoover. Log depth circuits for division and related problems, SIAM Journal on Computing 15:994-1003, 1986 http://www.cs.washington.edu/homes/beame/papers/division.ps.
[BCG+92] S. Ben-David, B. Chor, O. Goldreich, and M. Luby. On the theory of average case complexity, Journal of Computer and System Sciences 44(2):193-219, 1992. http://www.cs.technion.ac.il/~shai/aver.pdf
[BCS+97] L. Blum, F. Cucker, M. Shub, and S. Smale. Complexity and Real Computation, Springer-Verlag, 1997.
[BCD+89] A. Borodin, S. A. Cook, P. W. Dymond, W. L. Ruzzo, and M. L. Tompa. Two applications of inductive counting for complementation problems, SIAM Journal on Computing 18:559-578, 1989.
[BCP83] A. Borodin, S. A. Cook, and N. Pippenger. Parallel computations for well-endowed rings and space-bounded probabilistic machines, Information and Control 58:113-136, 1983.
[BD99] H. Buhrman and W. van Dam. Bounded quantum query complexity, Proceedings of IEEE Complexity'99, pp. 149-156, 1999. arXiv:quant-ph/9903035.
[BDG88] J. L. Balcázar, J. Díaz, and J. Gabarró Structural complexity 1
[BDH+92] G. Buntrock, C. Damm, U. Hertrampf, and Ch. Meinel. Structure and importance of logspace-MOD-classes, Mathematical Systems Theory 25:223-237, 1992. http://www.num.math.uni-goettingen.de/damm/papers/BDHM92.ps.gz.
[Bei89] R. Beigel. On the relativized power of additional accepting paths, Proceedings of IEEE Complexity'89, pp. 216-224, 1989. http://www.cis.temple.edu/~beigel/papers/ukp-structures.PS.gz.
[Bei94] R. Beigel. Perceptrons, PP, and the polynomial hierarchy, Computational Complexity 4:339-349, 1994. http://www.cis.temple.edu/~beigel/papers/delta2p-cc.PS.gz.
[Ber80] L. Berman. The complexity of logical theories, Theoretical Computer Science 11:71-78, 1980.
[BF92] R. Beigel and J. Feigenbaum. On Being Incoherent Without Being Very Hard. Comput. Complexity 2 (1992), no. 1, 1--17 http://www.cis.temple.edu/~beigel/papers/bf-coherent-cc.html
[BF99] H. Buhrman and L. Fortnow. One-sided versus two-sided randomness, Proceedings of the 16th Symposium on Theoretical Aspects of Computer Science (STACS), pp. 100-109, 1999. http://people.cs.uchicago.edu/~fortnow/papers/rpvsbpp.ps.
[BF03] R. Beigel. Are Cook and Karp ever the same?, Proceedings of the 18th Annual IEEE Conference on Computational Complexity, 333-336.
[BFL91] L. Babai, L. Fortnow, and C. Lund. Nondeterministic exponential time has two-prover interactive protocols, Computational Complexity 1:3-40, 1991. http://people.cs.uchicago.edu/~fortnow/papers/mip2.ps.
[BFM88] M. Blum, P. Feldman, and S. Micali. Non-interactive zero-knowledge proofs and their applications, Proceedings of the 20th STOC, ACM, 1988.
[BFS86] L. Babai, P. Frankl, and J. Simon. Complexity classes in communication complexity theory, Proceedings of IEEE FOCS'86, pp. 337-347, 1986.
[BFT98] H. Buhrman, L. Fortnow, and T. Thierauf. Nonrelativizing separations, Proceedings of IEEE Complexity'98, pp. 8-12, 1998. http://people.cs.uchicago.edu/~fortnow/papers/nonrel.ps.
[BGS75] T. Baker, J. Gill, and R. Solovay. Relativizations of the P=?NP question, SIAM Journal on Computing 4:431-442, 1975.
[BH77] L. Berman and J. Hartmanis. On isomorphism and density of NP and other complete sets, SIAM Journal on Computing 6:305-322, 1977.
[BG03] M. Ben-Or and D. Gutfreund. Trading help for interaction in statistical zero-knowledge proofs, J. Cryptology 16 (2003), no. 2, 95--116. http://www.cs.huji.ac.il/~danig/pubs/help_interaction.ps
[BG69] R. Book and S. Greibach. Quasi-realtime languages, Proceedings of ACM STOC pp. 15-18, 1969. http://portal.acm.org/citation.cfm?id=800169.805416
[BG81] C. H. Bennett and J. Gill. Relative to a random oracle A, PA != NPA != coNPA with probability 1, SIAM Journal on Computing, 10(1):96-113, 1981. DOI:10.1137/0210008
[BG92] R. Beigel and J. Gill. Counting classes: thresholds, parity, mods, and fewness, Theoretical Computer Science 103(1):3-23, 1992. http://www.cis.temple.edu/~beigel/papers/bg-mods-tcs.PS.gz.
[BG98] R. Beigel and J. Goldsmith. Downward separation fails catastrophically for limited nondeterminism classes, SIAM Journal on Computing 17(5):1420-1429, 1998. http://www.cis.temple.edu/~beigel/papers/bg-beta-draft.PS.gz.
[BG94] M. Bellare and S. Goldwasser. The complexity of decision versus search, SIAM Journal on Computing 23(1):91-119, 1994. http://www.cs.ucsd.edu/users/mihir/papers/compip.pdf
[BGG+90] M. Ben-Or, O. Goldreich, S. Goldwasser, J. Håstad, J. Kilian, S. Micali, and P. Rogaway. Everything provable is provable in zero-knowledge, Advances in Cryptology: CRYPTO'88 (S. Goldwasser, ed.), Lecture Notes in Computer Science 403, Springer-Verlag, pp. 37-56, 1990.
[BGK+88] M. Ben-Or, S. Goldwasser, J. Kilian, and A. Wigderson. Multi-prover interactive proofs: how to remove intractability, Proceedings of ACM STOC'88, pp. 113-131, 1988.
[BG82] A. Blass and Y. Gurevich. On the unique satisfiability problem, Information and Control 55(1-3):80-88, 1982.
[BGM02] E. Böhler, C. Glaßer, and D. Meister. Error-bounded probabilistic computations between MA and AM, Mathematical foundations of computer science 2003, 249--258. http://haegar.informatik.uni-wuerzburg.de/users/glasser/publications/sbp-ma-am-tr.pdf
[BGR93] B. von Braunmühl, R. Gengler, and R. Rettinger. The alternation hierarchy for sublogarithmic space is infinite, Computational Complexity, v.3 n.3, p.207-230, July 1993 [doi>10.1007/BF01271368] [1]
[BH91] S. R. Buss and L. Hay. On truth-table reducibility to SAT, Information and Computation 91(1):86-102, 1991.
[BH97] C. Berg and J. Håstad. On the BPP hierarchy problem, Technical Report TRITA-NA-9702, Royal Institute of Technology, Sweden, 1997. ftp://ftp.nada.kth.se/pub/documents/Theory/Christer-Berg/bpp.ps.
[BH08] H. Buhrman and J. Hitchcock. NP-Hard sets are exponentially eense unless NP is contained in coNP/poly, Electronic Colloquium on Computational Complexity, ECCC Report TR08-022, accepted on Mar 11, 2008. http://eccc.hpi-web.de/eccc-reports/2008/TR08-022/index.html
[BHR00] B. Borchert, L. Hemaspaandra, and J. Rothe. Restrictive Acceptance Suffices for Equivalence Problems. LMS J. Comput. Math. 3 (2000), 86--95 arXiv:cs.CC/9907041.
[BHW89] R. Beigel, L. Hemachandra, and G. Wechsung. On the power of probabilistic polynomial time, Proceedings of IEEE Complexity'89, pp. 225-230, 1989.
[BHZ87] R. B. Boppana, J. Håstad, and S. Zachos. Does co-NP have short interactive proofs?, Information Processing Letters 25:127-132, 1987.
[BK89] M. Blum and S. Kannan. Designing programs that check their work, Proceedings of ACM STOC'89, 1989.
[BKL+00] D. A. M. Barrington, P. Kadau, K.-J. Lange, and P. McKenzie. On the complexity of some problems on groups input as multiplication tables, http://www-fs.informatik.uni-tuebingen.de/~lange/Arbeiten/fologlog/bklm/neu.ps.gz Proceedings of IEEE Complexity'2000, 2000.
[BKS95] R. Beigel, M. Kummer, and F. Stephan. Approximable sets, Information and Computation 120(2):304-314, 1995. http://www.cis.temple.edu/~beigel/papers/bks-queries2-ic.PS.gz.
[BLM+98] D. A. M. Barrington, C.-J. Lu, P. B. Miltersen, and S. Skyum. Searching constant width mazes captures the AC0 hierarchy, Proceedings of the 1998 Symposium of Theoretical Aspects of Computer Science (STACS'98), 1998. ECCC TR97-044.
[BLM+99] D. A. M. Barrington, C.-J. Lu, P. B. Miltersen, and S. Skyum. On monotone planar circuits, Proceedings of IEEE Complexity'99, 1999. http://www.brics.dk/~bromille/Papers/mpc.ps
[BLS84] R. Book, T. Long, and A. Selman. Quantitative relativizations of complexity classes, SIAM Journal on Computing 13(3):461-487, 1984.
[Blu67] M. Blum. A Machine-Independent Theory of the Complexity of Recursive Functions. J. ACM 14: 322-336, 1967.
[BM04] J. Buresh-Oppenheim and T. Morioka. Relativized NP search problems and propositional proof systems, Proceedings of IEEE Complexity 2004, pp. 54-67, 2004. ECCC TR03-084.
[BM88] L. Babai and S. Moran. Arthur-Merlin games: a randomized proof system, and a hierarchy of complexity classes, Journal of Computer and Systems Sciences 36:254-276, 1988.
[Boo72] R. Book. On languages accepted in polynomial time, SIAM Journal on Computing 1(4):281-287, 1972.
[Boo74] R. Book. Comparing complexity classes, Journal of Computer and System Sciences 3(9):213-229, 1974.
[Boo94] R. Book. On collapsing the polynomial-time hierarchy, Information Processing Letters 52(5):235-237, 1994.
[Bor77] A. Borodin. On relating time and space to size and depth, SIAM Journal on Computing 6:733-744, 1977.
[Bra77] F.-J. Brandenburg. On one-way auxiliary pushdown automata, Proceedings of the Third GI-Conference on Theoretical Computer Science, Springer LNCS vol. 48, pp. 132-144, 1977.
[Bra79] G. Brassard. A note on the complexity of cryptography IEEE Transactions on Information Theory, 25(2):232-233, 1979.
[Bra06] S. Bravyi. Efficient algorithm for a quantum analogue of 2-SAT, arXiv:quant-ph/0602108v1, 2006.
[BRS91] R. Beigel, N. Reingold, and D. A. Spielman. PP is closed under intersection, Proceedings of ACM STOC'91, pp. 1-9, 1991. http://www.cis.temple.edu/~beigel/papers/brs-pp-jcss.PS.gz.
[Bru90] J. Bruck. Harmonic analysis of polynomial threshold functions, SIAM J. Discrete Math., 3 (1990) 168-177.
[BS00] B. Borchert and F. Stephan. Looking for an Analogue of Rice's Theorem in Circuit Complexity Theory. MLQ Math. Log. Q. 46 (2000), no. 4, 489--504 http://math.uni-heidelberg.de/logic/bb/papers/Rice.ps
[BS90] J. Bruck and R. Smolensky. Polynomial threshold functions, AC0 functions and spectral norms, Proceedings of IEEE FOCS'90, pp. 632-641, 1990.
[BS90b] R. B. Boppana and M. Sipser. The complexity of finite functions. chapter in Handbook of Theoretical Computer Science, Volume A (J. van Leeuwen, editor), Elsevier, 1990.
[BSF02] A. Ben-Hur, H. T. Siegelmann, and S. Fishman. A theory of complexity for continuous time systems, Journal of Complexity 18(1):51-86, 2002. http://cmgm.stanford.edu/~asab/Papers/dds2.ps.gz
[BT04] H. Buhrman and L. Torenvliet. Separating complexity classes using structural properties, Proceedings of IEEE Complexity 2004, pp. 130-138, 2004. http://staff.science.uva.nl/~leen/PAPERS/superrobustsets.pdf
[BT06] A. Bogdanov and L. Trevisan. Average-Case Complexity, ECCC Report TR06-073, Revision 01, accepted on Fri Sep 29 22:13:11 2006.
[BT88] D. A. M. Barrington and D. Thérien. Finite monoids and the fine structure of NC1, Journal of the ACM 35(4):941-952, 1988.
[Bur00] P. Bürgisser. Completeness and Reduction in Algebraic Complexity Theory, Springer Series in Algorithms and Computation in Mathematics, Volume 7, 2000.
[Buss93] S. Buss. Algorithms for Boolean formula evaluation and for tree-contraction, Proof Theory, Complexity, and Arithmetic, P. Clote and J. Krajicek (eds), Oxford University Press, 1993, pp. 95-115. http://math.ucsd.edu/~sbuss/ResearchWeb/Boolean3/index.html
[BV97] E. Bernstein and U. Vazirani. Quantum complexity theory, SIAM Journal on Computing, 26(5):1411-1473, 1997. http://www.cs.berkeley.edu/~vazirani/bv.ps
[BVW98] R. Book, H. Vollmer, and K. W. Wagner. Probabilistic type-2 operators and "almost"-classes, Computational Complexity 7(3):265-289, 1998.
[BVW07] H. Burhman, N. Vereshchajin, R. de Wolf. On computation and communication with small bias. Proceedings of IEEE Conference on Computational Complexity 2007 24-32, 2007.
[BW03] H. Buhrman and R. de Wolf. Quantum Zero-Error Algorithms Cannot be Composed, Information Processing Letters, 87(2):79-84, 2003. arXiv:quant-ph/0211029.
C
[Cai01] J.-Y. Cai. S2P is contained in ZPPNP, Proceedings of IEEE FOCS'2001, pp. 620-629, 2001.
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