https://cis.temple.edu/~giorgio/cis587/readings/rete.html
(R1 (has-goal ?x simplify) (expression ?x 0 + ?y) ==>....) (R2 (has-goal ?x simplify) (expression ?x 0 * ?y) ==>....) and the following facts: (has-goal e1 simplicity) (expression e1 0 + 3) (has-goal e2 simplicity) (expression e2 0 + 5) (has-goal e3 simplicity) (expression e3 0 * 2) Then the Rete is +----------+ | ENTRANCE | +----------+ x ...
https://cst.temple.edu/sites/cst/files/AlgebraFall1999.pdf
2. Let R be a commutative ring with 1, and let e ∈ R be an idempotent (e2 = e). Prove:
https://scholarshare.temple.edu/bitstreams/a7e8ac09-ba3c-4423-98ed-b3533161c333/download
2.1: The formation of Turkish Sufism (9c – 14c) ............. ...................... 38 2.2: The development of Turkish Sufism (15c – 20c) ...............................85
https://ronlevygroup.cst.temple.edu/courses/2020_fall/chem5302/lectures/chem5302_lecture2.pdf
Canonical Ensemble: An ensemble with the same Number of molecules, Volume and Temperature, but different Energy per system. (N, V, T)
https://faculty.cst.temple.edu/~szyld/reports/randCholQR_rev2_report.pdf
Only the trian-gular factor ˆR is needed, so some (exactly) orthogonal Qtmp exists such that Qtmp ˆR = ˆW + E2 = S2S1V + E1 + E2. (17) Analysis of E2 is provided in Section 5.2.4. In step 3, solving the triangular system Q ˆR = V also creates errors. These are analyzed in a row-wise fashion in Section 5.2.5, taking the form