0.00/0.12	% Problem    : theBenchmark.p : TPTP v0.0.0. Released v0.0.0.
0.00/0.12	% Command    : nanocop_casc.sh %s %d
0.13/0.34	% Computer   : n023.cluster.edu
0.13/0.34	% Model      : x86_64 x86_64
0.13/0.34	% CPU        : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
0.13/0.34	% Memory     : 8042.1875MB
0.13/0.34	% OS         : Linux 3.10.0-693.el7.x86_64
0.13/0.34	% CPULimit   : 180
0.13/0.34	% DateTime   : Thu Aug 29 10:50:22 EDT 2019
0.13/0.34	% CPUTime    : 
1.13/1.40	% SZS status Theorem for /export/starexec/sandbox/benchmark/theBenchmark.p
1.13/1.41	% SZS output start Proof for /export/starexec/sandbox/benchmark/theBenchmark.p
1.13/1.41	
1.13/1.41	- the following list represents a non-clausal connection proof
1.13/1.41	  (a tree in which each node is labelled with a nested clause)
1.13/1.41	- I^V is a skolem term f_I(V) for variable list V
1.13/1.41	- (I^K)^V:C is the (nested) clause C with index (I^K)^V, in which
1.13/1.41	  I is the unique index of C, K distinguishes different copies
1.13/1.41	  of C, and V is the list of (instantiated) variables in C
1.13/1.42	
1.13/1.42	[(741 ^ 0) ^ [902 ^ [], 901 ^ [], 900 ^ [], 897 ^ []] : [norm = index(status, host(897 ^ [])), host(897 ^ []) = index(ldr, host(897 ^ [])), setIn(897 ^ [], alive), setIn(902 ^ [], alive), elem(m_Down(901 ^ []), queue(host(902 ^ []))), leq(nbr_proc, s(index(pendack, host(902 ^ [])))), index(pendack, host(902 ^ [])) = host(900 ^ []), s(index(pendack, host(902 ^ []))) = host(901 ^ []), index(status, host(902 ^ [])) = elec_2, elem(m_Ack(902 ^ [], 900 ^ []), queue(host(902 ^ [])))], [(4 ^ 1) ^ [norm, index(status, host(897 ^ []))] : [-(norm = index(status, host(897 ^ []))), index(status, host(897 ^ [])) = norm], [(932 ^ 2) ^ [] : [-(index(status, host(897 ^ [])) = norm)]]], [(4 ^ 1) ^ [host(897 ^ []), index(ldr, host(897 ^ []))] : [-(host(897 ^ []) = index(ldr, host(897 ^ []))), index(ldr, host(897 ^ [])) = host(897 ^ [])], [(934 ^ 2) ^ [] : [-(index(ldr, host(897 ^ [])) = host(897 ^ []))]]], [(926 ^ 1) ^ [] : [-(setIn(897 ^ [], alive)), -(618 ^ [] = 897 ^ [])], [(4 ^ 2) ^ [897 ^ [], 618 ^ []] : [618 ^ [] = 897 ^ [], -(897 ^ [] = 618 ^ [])], [(194 ^ 3) ^ [618 ^ [], 897 ^ []] : [897 ^ [] = 618 ^ [], -(host(897 ^ []) = host(618 ^ []))], [(899 ^ 4) ^ [] : [host(897 ^ []) = host(618 ^ [])]]]]], [(920 ^ 1) ^ [] : [-(setIn(902 ^ [], alive)), -(902 ^ [] = 618 ^ [])], [(4 ^ 2) ^ [618 ^ [], 902 ^ []] : [902 ^ [] = 618 ^ [], -(618 ^ [] = 902 ^ [])], [(194 ^ 3) ^ [902 ^ [], 618 ^ []] : [618 ^ [] = 902 ^ [], -(host(618 ^ []) = host(902 ^ []))], [(906 ^ 4) ^ [] : [host(618 ^ []) = host(902 ^ [])]]]]], [(506 ^ 1) ^ [queue(host(902 ^ [])), m_Halt(618 ^ []), m_Down(901 ^ [])] : [-(elem(m_Down(901 ^ []), queue(host(902 ^ [])))), elem(m_Down(901 ^ []), snoc(queue(host(902 ^ [])), m_Halt(618 ^ []))), -(m_Down(901 ^ []) = m_Halt(618 ^ []))], [(916 ^ 2) ^ [] : [-(elem(m_Down(901 ^ []), snoc(queue(host(902 ^ [])), m_Halt(618 ^ []))))]], [(4 ^ 2) ^ [m_Halt(618 ^ []), m_Down(901 ^ [])] : [m_Down(901 ^ []) = m_Halt(618 ^ []), -(m_Halt(618 ^ []) = m_Down(901 ^ []))], [(593 ^ 3) ^ [618 ^ [], 901 ^ []] : [m_Halt(618 ^ []) = m_Down(901 ^ [])]]]], [(918 ^ 1) ^ [] : [-(leq(nbr_proc, s(index(pendack, host(902 ^ [])))))]], [(912 ^ 1) ^ [] : [-(index(pendack, host(902 ^ [])) = host(900 ^ []))]], [(914 ^ 1) ^ [] : [-(s(index(pendack, host(902 ^ []))) = host(901 ^ []))]], [(4 ^ 1) ^ [index(status, host(902 ^ [])), elec_2] : [-(index(status, host(902 ^ [])) = elec_2), elec_2 = index(status, host(902 ^ []))], [(910 ^ 2) ^ [] : [-(elec_2 = index(status, host(902 ^ [])))]]], [(390 ^ 1) ^ [queue(host(902 ^ [])), m_Ack(902 ^ [], 900 ^ []), m_Ack(902 ^ [], 900 ^ [])] : [-(elem(m_Ack(902 ^ [], 900 ^ []), queue(host(902 ^ [])))), elem(m_Ack(902 ^ [], 900 ^ []), cons(m_Ack(902 ^ [], 900 ^ []), queue(host(902 ^ [])))), -(m_Ack(902 ^ [], 900 ^ []) = m_Ack(902 ^ [], 900 ^ []))], [(382 ^ 2) ^ [queue(host(902 ^ [])), m_Ack(902 ^ [], 900 ^ []), m_Ack(902 ^ [], 900 ^ [])] : [-(elem(m_Ack(902 ^ [], 900 ^ []), cons(m_Ack(902 ^ [], 900 ^ []), queue(host(902 ^ []))))), 383 ^ 2 : [(384 ^ 2) ^ [] : [m_Ack(902 ^ [], 900 ^ []) = m_Ack(902 ^ [], 900 ^ [])], (386 ^ 2) ^ [] : [elem(m_Ack(902 ^ [], 900 ^ []), queue(host(902 ^ [])))]]], [(2 ^ 5) ^ [m_Ack(902 ^ [], 900 ^ [])] : [-(m_Ack(902 ^ [], 900 ^ []) = m_Ack(902 ^ [], 900 ^ []))]]], [(10 ^ 2) ^ [m_Halt(618 ^ []), m_Ack(902 ^ [], 900 ^ []), m_Ack(902 ^ [], 900 ^ [])] : [m_Ack(902 ^ [], 900 ^ []) = m_Ack(902 ^ [], 900 ^ []), -(m_Ack(902 ^ [], 900 ^ []) = m_Halt(618 ^ [])), m_Ack(902 ^ [], 900 ^ []) = m_Halt(618 ^ [])], [(281 ^ 3) ^ [618 ^ [], 900 ^ [], 902 ^ []] : [m_Ack(902 ^ [], 900 ^ []) = m_Halt(618 ^ [])]], [(506 ^ 3) ^ [queue(host(902 ^ [])), m_Halt(618 ^ []), m_Ack(902 ^ [], 900 ^ [])] : [-(m_Ack(902 ^ [], 900 ^ []) = m_Halt(618 ^ [])), elem(m_Ack(902 ^ [], 900 ^ []), snoc(queue(host(902 ^ [])), m_Halt(618 ^ []))), -(elem(m_Ack(902 ^ [], 900 ^ []), queue(host(902 ^ []))))], [(908 ^ 4) ^ [] : [-(elem(m_Ack(902 ^ [], 900 ^ []), snoc(queue(host(902 ^ [])), m_Halt(618 ^ []))))]], [_129248 ^ _129249 : [elem(m_Ack(902 ^ [], 900 ^ []), queue(host(902 ^ [])))]]]]]]
1.13/1.42	
1.13/1.42	% SZS output end Proof for /export/starexec/sandbox/benchmark/theBenchmark.p
1.13/1.43	EOF