SU1200293A1 - Multichannel signature analyzer - Google Patents

Description

The invention relates to computing and is intended for troubleshooting hardware in digital computing technology, including for analyzing output sequences in test control of multi-output digital computer nodes. The purpose of the invention is to reduce hardware costs for building a multi-channel signature analyzer by reducing memory register in comparison with the number of information inputs of the analyzer. The drawing shows a functional diagram of a multichannel signal. Turno first analyzer for the particular case where m - degree of forming trinomial 1 + x J + x. The multichannel signal analyzer has a group of information inputs 1 register 2, consisting of D-flip-flops 3, block 4 modulo-2 adders, divided into n / m C m by c m by zzgmmators in each, where n is the number of information inputs of the analyzer and 3n / mC - the nearest integer,. no less than n / m, group of outputs 5: inputs and outputs of the 6-29 analyzer. The size of register 2 is determined by the required accuracy of the counter. For real cases, the value of m does not exceed 20. The number of D-flip-flops does not depend on the number of channels of the main channel signature analysis, i.e. from the value of p. Determining the value of m, the number of adder groups modulo two in block 4o is determined on the basis of the expression C Cpc / cc. Thus, for p 96 and each group uses j three-input moduli and mj modulo two adders. for and. Thus, in the above example, C 312 / 4C 3 modulo two adders are used, each group containing the modulo two adders. Multichannel signature analyzer works as follows. When submitting to the information inputs of the analyzer according to the cycles of the controlled sequence with a digit n, its convolution occurs, and for the example shown in the drawing, three-term 1 + x + x is chosen as the generator. The function of the analyzer in each cycle in this case can be described by the following system of equations: d, i4i D j (Y D j z ® b (f) b2; Zj Й) bj, @ bz; Ъ, ФЪ Zg ® zl а.фа 7 IV - (2 where are the output states of modulo-two adders in a given clock; b, b are the states of the bits of register 2 in the previous clock; z -Z are the states of the information inputs of the analyzer in the current cycle. After the transformations, the given system of equations exactly describes the state of the single-channel signature, the tour analyzer with the three member 1 + X + X, after the information sequence z ,, .., z is supplied to it. In general, the proposed device satisfies same function in one clock cycle as a single-channel signature ana a binator based on V (x) I + x + x, per mx n / mC cycles. For the case shown in the drawing (i (x) 1 + x, the proposed multi-channel signature analyzer performs the same function in one clock cycle as single-channel per 4 x 12 / 4C 12 cycles. Compliance of signatures obtained by a multichannel analyzer and a single-channel one allows the well-studied theory of single-channel analyzers to be used to analyze the properties of the proposed structure.

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Claims (1)

(54X57) MULTI-CHANNEL SIGNATURE ANALYZER containing m-bit '' register (where w is the degree of the generatrix ¹ + trinomial 1 + x ^ + x '') and 3 n / mC groups of m adders modulo two (where η - the number of information inputs of the analyzer *,] η / m С is the nearest integer, not less than η / m), the first inputs of adders modulo two being a group of information inputs of the analyzer, the outputs of adders modulo two] p / t ( -. yen with information inputs of the register, the reset input, the sync input and the outputs of which are respectively the reset input, sync input m and · analyzer outputs, characterized in that, in order to reduce hardware costs, the second. input of the i-th (i = l, m) adder modulo ^ two of the first group is connected to the output of the i-ro discharge of the register, the third input (m -j + q) of the adder (q = l, j) of the adder modulo two. of the first group is connected to the output of the q-ro discharge of the register, the third and fourth inputs of the rd (r = l, mj) adder modulo two of the first group are connected respectively with outputs (j + fJ-ro and (. 2j-m + r) -ro bits of the register, the second input of the i-th (i = l, m) adder modulo two of the 1st group (l ^e 2,] n / mt) e is connected to the output of the i-th adder in modulo two (1-1) -th groups, the third input of the (m-j + q) adder modulo two of the 1st group is connected to the q-ro output of the adder modulo two (1-!) ~ groups, the third and the fourth inputs of the gth adder modulo two of the 1st group are connected to the outputs of the (J + r) - and (2j-m + '+ g) th adders modulo two (1-1) th groups, and the first inputs (mj) higher adders modulo two of each group are connected to the fifth inputs (mJ) of lower adders modulo two.