Nuprl Lemma : hdf-parallel-transformation2-2

∀[L1,L2,G1,G2,S1,S2,init1,init2:Top]. ∀[m1,m2:ℕ].
  (fix((λmk-hdf,s. (inl (λa.cbva_seq(L1[s;a]; λg.<mk-hdf S1[g;s], G1[g]>; m1))))) init1
   || fix((λmk-hdf,s. (inl (λa.cbva_seq(L2[s;a]; λg.<mk-hdf S2[g;s], G2[g]>; m2))))) init2
  ~ fix((λmk-hdf,s. (inl (λa.cbva_seq(λn.if n <z m1 then L1[fst(s);a] n

                                         if n <z m1 + m2 then mk_lambdas(L2[snd(s);a] (n - m1);m1)

                                         else mk_lambdas_fun(λg1.mk_lambdas_fun(λg2.(G1[g1] + G2[g2]);m2);m1)

fi ; λg.<mk-hdf

                                                  <S1[partial_ap_gen(g;(m1 + m2) + 1;0;m1);fst(s)]

                                                  , S2[partial_ap_gen(g;(m1 + m2) + 1;m1;m2);snd(s)]

>

                                                 , select_fun_last(g;m1 + m2)

                                                 >; (m1 + m2) + 1)))))

<init1, init2>)

Proof

Definitions occuring in Statement : hdf-parallel: X || Y, nat: ℕ, ifthenelse: if b then t else f fi , lt_int: i <z j, uall: ∀[x:A]. B[x], top: Top, so_apply: x[s1;s2], so_apply: x[s], pi1: fst(t), pi2: snd(t), apply: f a, fix: fix(F), lambda: λx.A[x], pair: <a, b>, inl: inl x, subtract: n - m, add: n + m, natural_number: $n, sqequal: s ~ t, bag-append: as + bs, select_fun_last: select_fun_last(g;m), partial_ap_gen: partial_ap_gen(g;n;s;m), mk_lambdas: mk_lambdas(F;m), mk_lambdas_fun: mk_lambdas_fun(F;m), cbva_seq: cbva_seq(L; F; m)
Definitions unfolded in proof : uall: ∀[x:A]. B[x], member: t ∈ T, so_apply: x[s1;s2], so_apply: x[s], bag-append: as + bs, lt_int: i <z j, ifthenelse: if b then t else f fi , hdf-parallel: X || Y, bfalse: ff, btrue: tt, hdf-halted: hdf-halted(P), band: p ∧_b q, hdf-ap: X(a), mk-hdf: mk-hdf(s,m.G[s; m];st.H[st];s0), empty-bag: {}, hdf-run: hdf-run(P), hdf-halt: hdf-halt(), isr: isr(x), so_lambda: so_lambda(x,y,z,w.t[x; y; z; w]), so_apply: x[s1;s2;s3;s4], so_lambda: λ₂x.t[x], top: Top, uimplies: b supposing a, strict4: strict4(F), and: P ∧ Q, all: ∀x:A. B[x], implies: P ⇒ Q, has-value: (a)↓, prop: ℙ, guard: {T}, or: P ∨ Q, squash: ↓T, so_lambda: λ₂x y.t[x; y], append: as @ bs, so_lambda: so_lambda(x,y,z.t[x; y; z]), so_apply: x[s1;s2;s3], nat: ℕ, false: False, ge: i ≥ j , satisfiable_int_formula: satisfiable_int_formula(fmla), exists: ∃x:A. B[x], not: ¬A, fun_exp: f^n, primrec: primrec(n;b;c), cbva_seq: cbva_seq(L; F; m), callbyvalueall_seq: callbyvalueall_seq(L;G;F;n;m), le_int: i ≤z j, bnot: ¬_bb, pi1: fst(t), mk_lambdas: mk_lambdas(F;m), pi2: snd(t), subtract: n - m, mk_lambdas_fun: mk_lambdas_fun(F;m), mk_lambdas-fun: mk_lambdas-fun(F;G;n;m), list_ind: list_ind, cons: [a / b], partial_ap_gen: partial_ap_gen(g;n;s;m), select_fun_last: select_fun_last(g;m), select_fun_ap: select_fun_ap(g;n;m), decidable: Dec(P), exposed-bfalse: exposed-bfalse, bool: 𝔹, unit: Unit, it: ⋅, uiff: uiff(P;Q), sq_type: SQType(T), assert: ↑b, compose: f o g, nil: [], nequal: a ≠ b ∈ T , eq_int: (i =_z j), subtype_rel: A ⊆r B

Latex:
\mforall{}[L1,L2,G1,G2,S1,S2,init1,init2:Top]. \mforall{}[m1,m2:\mBbbN{}]. (fix((\mlambda{}mk-hdf,s. (inl (\mlambda{}a.cbva\_seq(L1[s;a]; \mlambda{}g.<mk-hdf S1[g;s], G1[g]> m1))))) init1 || fix((\mlambda{}mk-hdf,s. (inl (\mlambda{}a.cbva\_seq(L2[s;a]; \mlambda{}g.<mk-hdf S2[g;s], G2[g]> m2))))) init2 \msim{} fix((\mlambda{}mk-hdf,s. (inl (\mlambda{}a.cbva\_seq(\mlambda{}n.if n <z m1 then L1[fst(s);a] n if n <z m1 + m2 then mk\_lambdas(L2[snd(s);a] (n - m1);m1) else mk\_lambdas\_fun(\mlambda{}g1.mk\_lambdas\_fun(\mlambda{}g2.(G1[g1] + G2[g2]);m2);m1) fi ; \mlambda{}g.<mk-hdf <S1[partial\_ap\_gen(g;(m1 + m2) + 1;0;m1);fst(s)] , S2[partial\_ap\_gen(g;(m1 + m2) + 1;m1;m2);snd(s)] > , select\_fun\_last(g;m1 + m2) > (m1 + m2) + 1))))) <init1, init2>) Date html generated: 2016_05_16-AM-10_47_17 Last ObjectModification: 2016_01_17-AM-11_11_28 Theory : halting!dataflow Home Index