RU2417431C1 - METHOD FOR SELECTIVE LOGIC DIFFERENTIATION d*/dn OF POSITIONAL ANALOGUE SIGNALS ±[mj]f(2n) TAKING INTO ACCOUNT LOGICAL SIGN m(±) THEREOF AND FUNCTIONAL STRUCTURE FOR IMPLEMENTATION THEREOF (RUSSIAN LOGIC VERSIONS) - Google Patents
METHOD FOR SELECTIVE LOGIC DIFFERENTIATION d*/dn OF POSITIONAL ANALOGUE SIGNALS ±[mj]f(2n) TAKING INTO ACCOUNT LOGICAL SIGN m(±) THEREOF AND FUNCTIONAL STRUCTURE FOR IMPLEMENTATION THEREOF (RUSSIAN LOGIC VERSIONS) Download PDFInfo
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Abstract
FIELD: information technology.
SUBSTANCE: in one version, the functional structure is implemented using elements which execute logic functions AND, OR and NOT. Each j-th order of the functional structure is in form of a positive and conditionally negative channel for converting input arguments mj of the j-th order, mj-1 of the (j-1)-th order, mj-2 of the (j-2)-th order and an argument with sign m(±); in the positive channel, the resultant argument +mj is created through logic functions AND1, AND2, AND3, logic function NOT1 and logic function OR1; in the conditionally negative channel, the resultant argument -mj is created through logic functions AND4, AND5, AND6, logic function NOT2 and logic function OR2.
EFFECT: faster execution of arithmetic operations.
6 cl
Description
Claims (6)
где и - активный положительный аргумент и активный условно отрицательный аргумент в позиционно-знаковой структуре.1. The method of selective logical differentiation of d * / dn positional analog signals ± [m j ] f (2 n ), taking into account their logical sign m (±), including the simultaneous analysis in the conditionally “j” discharge of the activity of the system of input analog signals m j conditionally “J” of the discharge and m j-1 conditionally “j-1” of the discharge with the formation of a positive argument + m j of the resulting analog signal, and with the formation of the conditionally negative argument -m j of the resulting analog signal, characterized in that the simultaneous analysis in conditionally “ j "the discharge perform pos using a functional logical structure, taking into account the analog signal of the logical sign m (±), which includes either a conditionally low level of the analog signal m (+) or a conditionally high level of the analog signal m (-), while in the conditionally inactive “j” discharge sign structure activate or positive argument + m j, or conditionally negative argument -m j, if the result of analysis via functional logical structure of the previous argument m j-1 analog signal conditionally «j-1" of the discharge of the same sign as ak Ewen, while the activity of argument m j in conventionally «j» and activity of m j-1 of the argument of the analog signal into a conditionally «j-1" discharge and inactivity of the previous analog signal argument m j-2 in the pre «j-2 'of the discharge of the same sign activates in the conditionally "j" discharge positional-sign structure, the argument of the opposite sign in accordance with the logical-dynamic processes of transformation of arguments of the form
Where and - an active positive argument and an active conditionally negative argument in a position-sign structure.
где +f(&) и -f(&) - положительная и условно отрицательная функциональная логическая структура; «=& 1=» - логическая функция f1(&)-HE изменения активности входных аналоговых сигналов;
- логическая функция f1(&)-И; - логическая функция f1(})-ИЛИ.2. A method of selective logical differentiation of d * / dn positional analog signals ± [m j ] f (2 n ) taking into account their logical sign m (±), including simultaneous analysis in the conditionally “i” discharge of the activity of the system of input analog signals m j “ j "discharge and m j-1 " j-1 "discharge taking into account the analog signal of their logical sign m (±), which includes either a conditionally low level of the analog signal m (+) or a conditionally high level of the analog signal m (-) as in a positive functional logical structure + f (&) with the formation of positive argum enta + m j of the resulting analog signal, and in the conditionally negative functional logical structure -f (&) with the formation of the conditionally negative argument -m j of the resulting analog signal, while using the logical function f 1 (}) - OR activate the positive argument + m j of the resulting analog signal from the input signal generated by the logical function f 2 (&) - And from the inactive argument m j “j” of the discharge obtained by changing the activity of the input argument by the logical function f 2 ( & ) -HE m j , the active argument m j-1 "j-1" discharge and the analog signal signal of a conditionally low level m (+), obtained by changing the logical function f 1 ( & ) -НЕ activity of the input analog signal of the sign m (±), by logical function f 2 (}) - OR activate the conditionally negative argument -m j of the resulting analog signal from the output signal generated by the logical function f 5 (&) - And from the inactive argument m j "j" of the discharge, the active argument m j-1 “J-1” discharge and analogue signal of conditionally high level sign n (-) , characterized in that an additional argument m j-2 "j-2" of the category is introduced into the system for analyzing the activity of arguments, for conversion by means of the logical functions f 2 (&) - And and f 5 (&) - And, and a positive argument + m j is activated additionally by the output signal, which is generated by the logical function f 3 (&) - And from the analog argument m j "j" of the discharge, the active argument m j-1 "j-1" of the discharge, the inactive argument m j-2 " j-2 "discharge and a relatively high analog signal of sign m (-), and from the output signal generated by Function f 1 (k) - and the active argument m j «j» discharge without active argument m j-1 «j-1" level and low-level analog conditionally sign signal m (+), and conditionally negative argument -m j activate additionally by the output signal, which is generated by the logical function f 6 (&) - And from the active argument m j "j" of the discharge, the active argument of the argument m j-1 "j-1" of the discharge, the inactive argument m j-2 "j- 2 "level and arbitrarily low analog signal m (+), and an output signal which is formed by the logical function f 4 (k) - and from the active th argument m j «j» discharge inactive argument m j-1 «j-1" and conditionally discharge the high mark analog signal m (-), wherein the mathematical model of the selective logic derivations analog positional signal has the form
where + f (&) and -f (&) is a positive and conditionally negative functional logical structure; "= & 1 =" - the logical function f 1 ( & ) -HE changes in the activity of the input analog signals;
- logical function f 1 (&) - And; - logical function f 1 (}) - OR.
3. Functional structure of the procedure of selective logical differentiation d * / dn of positional analog signals ± [m j ] f (2 n ) taking into account their logical sign m (±), “j” of which is made in the form of a positive and conditionally negative channel for converting positional input arguments containing the logical functions f 1 ( & ) -HE, f 1 (&) - AND, f 3 (&) - AND, f 1 (}) - OR, and f 2 ( & ) -HE, f 4 (& ) -And f 5 (&) - AND, f 2 (}) - OR, while in two channels the functional output link of the logical function f 1 (}) - OR and f 2 (}) - OR is the functional output link of the channel to form positive and conditionally negative resulting argument + m j and -m j respectively, and the functional input links of these functions in the channels are the functional output links of the logical function f 3 (&) - And, f 5 (&) - And and the logical function f 1 ( &) - And and f 4 (&) - And, in which two functional input links are functional input links in each channel for receiving the argument m j "j" of the discharge and the argument m j-1 "j-1" of the discharge with a changed level an analog signal, while one functional input connection of the logical function f 3 (&) - And and f 5 (&) - And I is a functional input link in the channels for receiving the argument m j-1 “j-1” of the discharge, and the other functional input link is the functional output link of the logical function f 1 ( & ) -HE and f 2 ( & ) -HE, in which the input link is the functional input link of the channel for receiving the signed argument m (±) in the positive channel and the argument m j “j” of the discharge in the conditionally negative channel, characterized in that an additional logical function f 2 (&) is introduced into the positive and conditionally negative channels -And 6 and f (k) - and, at the same Fu tional connection in the functional structure d / dn logical derivation procedure performed in accordance with the mathematical model of the form
где - логическая функция f1(&)-И-HE.4. Functional structure of the selective logical differentiation procedure d * / dn of positional analog signals ± [m j ] f (2 n ) taking into account their logical sign m (±), “j” of which is made in the form of a positive and conditionally negative channel for converting positional input arguments and the formation of positive and conditionally negative resulting arguments + m j and -m j containing the logical function f 1 ( & ) -HE and f 2 ( & ) -HE, in which the functional input link is the functional input link of the channel for receiving the sign but argument of m (±) in the positive channel and argument m j «j» conditionally discharge in the negative channel, characterized in that the positive channel introduced additional logic functions f 1 (k) -and-HE, f 2 (k) -AND- HE, f 3 ( & ) -I-HE and f 4 ( & ) -I-HE, and additional logical functions f 5 ( & ) -I-HE, f 6 ( & ) -I are introduced into the conditionally negative channel for converting arguments -HE, f 7 ( & ) -I-NOT and f 8 ( & ) -I-HE, while the functional relationships in the functional structure of the logical differentiation procedure d / dn are made in accordance with a mathematical model of the form
Where - logical function f 1 ( & ) -I-HE.
где - логическая функция f1(}&)-ИЛИ-НЕ.5. Functional structure of the procedure of selective logical differentiation d * / dn of positional analog signals ± [m j ] f (2 n ) taking into account their logical sign m (±), “j” of which is made in the form of a positive and conditionally negative channel for converting positional input arguments containing logical functions f 1 ( & ) -HE, f 1 (&) - AND, f 1 (}) - OR and f 2 ( & ) -HE, f 2 (}) - OR, with two channels the functional output link of the logical function f 1 (}) - OR and f 2 (}) - OR is the functional output link of the channel to form a positive and of the negative result argument + m j and -m j, respectively, and the functional input link of the logical functions f 1 ( & ) -HE and f 2 ( & ) -HE is the channel functional input link for receiving the signed argument n (±) in positive channel and the argument m j “j” of the discharge in a conditionally negative channel, characterized in that additional logical functions f 1 (} & ) -OR-HE, f 2 (} & ) -ORNOR and f 3 ( } & ) -OR-HE, and additional logical functions f 4 (} & ) -OR-HE, f 5 (} & ) -ORNOR and f 6 (} & ) -OR-HE, are introduced into the conditionally negative channel P and this functional connection in the functional structure of the d / dn logical derivation procedure performed in accordance with the mathematical model of the form
Where - logical function f 1 (} & ) -OR-NOT.
6. Functional structure of the procedure of selective logical differentiation d * / dn of positional analog signals ± [m j ] f (2 n ) taking into account their logical sign m (±), “j” of which is made in the form of a positive and conditionally negative channel for converting positional input arguments and the formation of positive and conditionally negative resulting arguments + m j and -m j containing the logical functions f 1 (}) - OR and f 4 (}) - OR and the logical function f 1 ( & ) -HE and f 2 ( &) -HE, wherein the functional relationship is input functional input th communication channel for reception of the sign of the argument n (±) in the positive channel and argument m j «j» discharge in conditional negative channel, characterized in that the positive channel introduced additional logic functions f 2 (}) - OR, f 3 (} ) -OR and f 1 ( & ) -AND-NOT, and additional logical functions f 5 (}) - OR, f 6 (}) - OR and f 2 ( & ) -AND NOT, when the functional relationships in the functional structure of the logical differentiation procedure d / dn are made in accordance with a mathematical model of the form
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