Nathan Segerlind

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2009

20 EE Toniann Pitassi, Nathan Segerlind: Exponential lower bounds and integrality gaps for tree-like Lovász-Schrijver procedures. SODA 2009: 355-364

2008

19 EE Nathan Segerlind: On the Relative Efficiency of Resolution-Like Proofs and Ordered Binary Decision Diagram Proofs. IEEE Conference on Computational Complexity 2008: 100-111

2007

18 EE Nathan Segerlind: Nearly-Exponential Size Lower Bounds for Symbolic Quantifier Elimination Algorithms and OBDD-Based Proofs of Unsatisfiability CoRR abs/cs/0701054: (2007)

17 EE Nathan Segerlind: Nearly-Exponential Size Lower Bounds for Symbolic Quantifier Elimination Algorithms and OBDD-Based Proofs of Unsatisfiability. Electronic Colloquium on Computational Complexity (ECCC) 14(009): (2007)

16 EE Nathan Segerlind, Toniann Pitassi: Exponential lower bounds and integrality gaps for tree-like Lovasz-Schrijver procedures. Electronic Colloquium on Computational Complexity (ECCC) 14(107): (2007)

15 EE Nathan Segerlind: On the relative efficiency of resolution-like proofs and ordered binary decision diagram proofs. Electronic Colloquium on Computational Complexity (ECCC) 14(126): (2007)

14 EE Paul Beame, Toniann Pitassi, Nathan Segerlind: Lower Bounds for Lov[a-acute]sz--Schrijver Systems and Beyond Follow from Multiparty Communication Complexity. SIAM J. Comput. 37(3): 845-869 (2007)

2006

13 EE Russell Impagliazzo, Nathan Segerlind: Constant-depth Frege systems with counting axioms polynomially simulate Nullstellensatz refutations. ACM Trans. Comput. Log. 7(2): 199-218 (2006)

12 EE Paul Beame, Toniann Pitassi, Nathan Segerlind, Avi Wigderson: A Strong Direct Product Theorem for Corruption and the Multiparty Communication Complexity of Disjointness. Computational Complexity 15(4): 391-432 (2006)

11 EE Paul Beame, Russell Impagliazzo, Toniann Pitassi, Nathan Segerlind: Formula Caching in DPLL. Electronic Colloquium on Computational Complexity (ECCC) 13(140): (2006)

2005

10 EE Paul Beame, Toniann Pitassi, Nathan Segerlind: Lower Bounds for Lovász-Schrijver Systems and Beyond Follow from Multiparty Communication Complexity. ICALP 2005: 1176-1188

9 EE Paul Beame, Toniann Pitassi, Nathan Segerlind, Avi Wigderson: A Direct Sum Theorem for Corruption and the Multiparty NOF Communication Complexity of Set Disjointness. IEEE Conference on Computational Complexity 2005: 52-66

8 EE Paul Beame, Toniann Pitassi, Nathan Segerlind: Lower bounds for Lovasz-Schrijver systems and beyond follow from multiparty communication complexity Electronic Colloquium on Computational Complexity (ECCC)(053): (2005)

7 EE Nathan Segerlind: Exponential separation between Res(k) and Res(k+1) for k leq varepsilonlogn. Inf. Process. Lett. 93(4): 185-190 (2005)

2004

6 EE Nathan Segerlind, Samuel R. Buss, Russell Impagliazzo: A Switching Lemma for Small Restrictions and Lower Bounds for k-DNF Resolution. SIAM J. Comput. 33(5): 1171-1200 (2004)

2003

5 EE Paul Beame, Russell Impagliazzo, Toniann Pitassi, Nathan Segerlind: Memoization and DPLL: Formula Caching Proof Systems. IEEE Conference on Computational Complexity 2003: 248-

4 EE Russell Impagliazzo, Nathan Segerlind: Constant-Depth Frege Systems with Counting Axioms Polynomially Simulate Nullstellensatz Refutations CoRR cs.CC/0308012: (2003)

2002

3 EE Nathan Segerlind, Samuel R. Buss, Russell Impagliazzo: A Switching Lemma for Small Restrictions and Lower Bounds for k - DNF Resolution. FOCS 2002: 604-

2 EE Russell Impagliazzo, Nathan Segerlind: Bounded-Depth Frege Systems with Counting Axioms Polynomially Simulate Nullstellensatz Refutations. ICALP 2002: 208-219

2001

1 Russell Impagliazzo, Nathan Segerlind: Counting Axioms Do Not Polynomially Simulate Counting Gates. FOCS 2001: 200-209

2009
20	EE	Toniann Pitassi, Nathan Segerlind: Exponential lower bounds and integrality gaps for tree-like Lovász-Schrijver procedures. SODA 2009: 355-364
2008
19	EE	Nathan Segerlind: On the Relative Efficiency of Resolution-Like Proofs and Ordered Binary Decision Diagram Proofs. IEEE Conference on Computational Complexity 2008: 100-111
2007
18	EE	Nathan Segerlind: Nearly-Exponential Size Lower Bounds for Symbolic Quantifier Elimination Algorithms and OBDD-Based Proofs of Unsatisfiability CoRR abs/cs/0701054: (2007)
17	EE	Nathan Segerlind: Nearly-Exponential Size Lower Bounds for Symbolic Quantifier Elimination Algorithms and OBDD-Based Proofs of Unsatisfiability. Electronic Colloquium on Computational Complexity (ECCC) 14(009): (2007)
16	EE	Nathan Segerlind, Toniann Pitassi: Exponential lower bounds and integrality gaps for tree-like Lovasz-Schrijver procedures. Electronic Colloquium on Computational Complexity (ECCC) 14(107): (2007)
15	EE	Nathan Segerlind: On the relative efficiency of resolution-like proofs and ordered binary decision diagram proofs. Electronic Colloquium on Computational Complexity (ECCC) 14(126): (2007)
14	EE	Paul Beame, Toniann Pitassi, Nathan Segerlind: Lower Bounds for Lov[a-acute]sz--Schrijver Systems and Beyond Follow from Multiparty Communication Complexity. SIAM J. Comput. 37(3): 845-869 (2007)
2006
13	EE	Russell Impagliazzo, Nathan Segerlind: Constant-depth Frege systems with counting axioms polynomially simulate Nullstellensatz refutations. ACM Trans. Comput. Log. 7(2): 199-218 (2006)
12	EE	Paul Beame, Toniann Pitassi, Nathan Segerlind, Avi Wigderson: A Strong Direct Product Theorem for Corruption and the Multiparty Communication Complexity of Disjointness. Computational Complexity 15(4): 391-432 (2006)
11	EE	Paul Beame, Russell Impagliazzo, Toniann Pitassi, Nathan Segerlind: Formula Caching in DPLL. Electronic Colloquium on Computational Complexity (ECCC) 13(140): (2006)
2005
10	EE	Paul Beame, Toniann Pitassi, Nathan Segerlind: Lower Bounds for Lovász-Schrijver Systems and Beyond Follow from Multiparty Communication Complexity. ICALP 2005: 1176-1188
9	EE	Paul Beame, Toniann Pitassi, Nathan Segerlind, Avi Wigderson: A Direct Sum Theorem for Corruption and the Multiparty NOF Communication Complexity of Set Disjointness. IEEE Conference on Computational Complexity 2005: 52-66
8	EE	Paul Beame, Toniann Pitassi, Nathan Segerlind: Lower bounds for Lovasz-Schrijver systems and beyond follow from multiparty communication complexity Electronic Colloquium on Computational Complexity (ECCC)(053): (2005)
7	EE	Nathan Segerlind: Exponential separation between Res(k) and Res(k+1) for k leq varepsilonlogn. Inf. Process. Lett. 93(4): 185-190 (2005)
2004
6	EE	Nathan Segerlind, Samuel R. Buss, Russell Impagliazzo: A Switching Lemma for Small Restrictions and Lower Bounds for k-DNF Resolution. SIAM J. Comput. 33(5): 1171-1200 (2004)
2003
5	EE	Paul Beame, Russell Impagliazzo, Toniann Pitassi, Nathan Segerlind: Memoization and DPLL: Formula Caching Proof Systems. IEEE Conference on Computational Complexity 2003: 248-
4	EE	Russell Impagliazzo, Nathan Segerlind: Constant-Depth Frege Systems with Counting Axioms Polynomially Simulate Nullstellensatz Refutations CoRR cs.CC/0308012: (2003)
2002
3	EE	Nathan Segerlind, Samuel R. Buss, Russell Impagliazzo: A Switching Lemma for Small Restrictions and Lower Bounds for k - DNF Resolution. FOCS 2002: 604-
2	EE	Russell Impagliazzo, Nathan Segerlind: Bounded-Depth Frege Systems with Counting Axioms Polynomially Simulate Nullstellensatz Refutations. ICALP 2002: 208-219
2001
1		Russell Impagliazzo, Nathan Segerlind: Counting Axioms Do Not Polynomially Simulate Counting Gates. FOCS 2001: 200-209

Coauthor Index

1 Paul Beame [5] [8] [9] [10] [11] [12] [14]

2 Samuel R. Buss [3] [6]

3 Russell Impagliazzo [1] [2] [3] [4] [5] [6] [11] [13]

4 Toniann Pitassi [5] [8] [9] [10] [11] [12] [14] [16] [20]

5 Avi Wigderson [9] [12]

1	Paul Beame	[5] [8] [9] [10] [11] [12] [14]
2	Samuel R. Buss	[3] [6]
3	Russell Impagliazzo	[1] [2] [3] [4] [5] [6] [11] [13]
4	Toniann Pitassi	[5] [8] [9] [10] [11] [12] [14] [16] [20]
5	Avi Wigderson	[9] [12]