RU2649953C1 - Arbiter of priorities of multi-channel requests - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: invention relates to network communication technologies. Priority arbiter of multichannel queries contains N groups of external inputs of queries IZ1, IZ2, …, IZN, each of which contains M bits of priority rank (highest priority is assigned to the senior group IZN, and the senior rank of the priority has the highest M-th rank), first group of N external outputs of the high priority group pointers U1, U2, …, UN and the second group of M external outputs of pointers of the senior priority rank in the group OZ1, OZ2, …, OZM, first group of N elements OR 1₁, 1₂, …, 1_N, first unit of the upper unit indicator containing the second group of (N-2) OR elements 3₁, 3₂, …, 3_(N-2) and the first group of (N-1) AND inhibition elements with one inverse input 4₁, 4₂, …, 4_(N-1), matrix of elements AND 5ij, consisting of i rows of j elements AND in each line (where i=1, 2, …, N, j=1, 2, …, M), third group of M elements OR 6₁, 6₂, …, 6_M and a second index block of the higher unit 7, containing a fourth group of (M-2) OR 8₁, 8₂, …, 8_(M-2) and a second group of (M-1) AND inhibition elements with one inverse input 9₁, 9₂, …, 9_(M-1).

EFFECT: technical result consists in increasing of data transmission rate.

1 cl, 1 dwg

Description

The invention relates to the field of computer technology and can be used for arbitration in information processing systems when organizing the exchange of data between devices.

The index of the senior unit is known (Ugryumov EP Digital circuitry: textbook for universities. - SPb .: BHV-Petersburg, 2010. - 816 p., Fig. 2.9 p. 87-90) containing a group of elements I and a group prohibition elements AND with one inverse input. This device implements a chain diagram for transmitting a polling signal by sequential polling, starting with the highest level, and terminating further polling when the first unit is detected.

The index of the senior unit is known (Computer Circuit Engineering. Collection of tasks: a training manual. M .: NRNU MEPhI, 2012. - 240 p., Fig. 53, p. 55-56) containing a group of OR elements combined in a chain and a group of prohibition elements AND with one inverse input.

The disadvantage of these devices is the determination of one senior priority of only one rank.

A multi-channel priority device is known (RU No. 2415465 C2, IPC G06F 9/46, announced June 1, 2009, published March 27, 2011, Bull. No. 9), containing M channels, each of which contains a decoder, a group of elements And, the first and second elements OR, AND element with direct and inverse inputs, delay element, priority code input group, request input and response output, and in each channel, the request input is connected to the delay element input, the output of which is connected to the second inputs of all elements AND of the group of elements AND of its channel , group of code inputs of the connection channel It is connected with the group of inputs of the channel decoder, and the output of the first OR element is the output of the channel response.

In this device, the Discipline of servicing subscriber requests with absolute priorities is introduced, which can quickly change when reconfiguring the computing system. The disadvantage of this device is the task of only not the same priorities and the impossibility of simultaneously setting several levels (ranks) of priorities in each channel.

The closest device of the same purpose to the claimed invention in terms of features is the multi-output pointer of the senior unit (RU No. 2591017 C1, IPC Н03М 7/22, G06F 13/37, G06F 9/46, claimed July 23, 2015, published 07/10/2016, Bull. No. 19), containing a group of N external request inputs Z1, Z2, ..., ZN (input ZN has the highest priority), K cascades (K is the number of senior unit pointers formed) and K groups of external outputs U pointers senior unit, and each i-th cascade (i = 1, 2, ..., K) contains a group of (Ni-1) elements OR 1 _i1 , 1 _i2 , ..., 1 _{i (Ni -1)} and a group of (Ni) prohibition elements AND with one inverse input 2 _i1 , 2 _i2 , ..., 2 _{i (Ni)} , as well as a group of (N + 1-i) request inputs in the i-th cascade A _i1 , A _i2 , ..., A _{i (N + 1-i)} and a group of (N + 1-i) external outputs of pointers of the highest unit of the i-th rank U _i1 , U _i2 , ..., U _{i (N + 1-i )} (1st rank has the highest priority), each of the first (K-1) cascades, in addition to the last K-th cascade, also contains a group of (Ni) elements And 3 _i1 , 3 _i2 , ..., 3 _{i (Ni)} and a group of (Ni) query outputs S _i1 , S _i2 , ..., S _{i (Ni)} to the next (i + 1) th cascade, and in each i-th cascade (i = 1, 2, ..., K) the first (Ni) inputs A _{i1, A i2, ..., A} i (Ni) of the input request group, chrome last login request A _{i (Ni + 1),} connected to the second inputs of the respective straight elements 2 _i1, 2 _i2, ..., 2 _{i (Ni)} from the group barring elements and with one inverted input, the outputs of all elements in the group of (Ni -1) of OR elements 1 _i1 , 1 _i2 , ..., 1 _{i (Ni-1) are} connected to the first inverse inputs of the corresponding first (Ni-1) elements of 2 _i1 , 2 _i2 , ..., 2 _{i (Ni-1)} groups from prohibition elements AND with one inverse input, except for the last element 2 _{i (Ni)} , in which the first inverse input is connected to the last (N-i + 1) input A _{i (N-i + 1)} of the request group of the i-th cascade and the first the last ment l _{i (Ni-1)} of the group of elements or, in addition in each i-th stage (i = 1, 2, ..., K), second inputs (Ni-1) of the elements 1 _i1, 1 _i2, ..., 1, _{i (Ni-1)} from the group of elements OR connected to the corresponding (Ni-1) inputs A _i2 , A _i2 , ..., A _{i (Ni) of the} request in the i-th channel, starting from the second input of the request, except for the last input of the request A _{i (N-i + 1)} , and the first inputs of the first (Ni-2) elements 1 _i1 , 1 _i2 , ..., 1 _{i (Ni-2)} from the group of OR elements are connected to the outputs of the corresponding subsequent elements 1 _i2 , 1 _i3 , ... 1 _{i (Ni-1)} of the group of elements or, in addition in each i-th stage (i = 1, 2, ..., K) outputs (Ni) elements 2 _i1, 2 _i2, ..., 2 _{i (Ni)} of the group of AND gates are first (Ni) from the group of external outputs external output unit of the elder pointers WASTE rank _{i-U i1, U i2, ...,} U i (Ni), and the last (Ni + 1) external output U _{i ( N + 1-i) is} connected to the last (N-i + 1) input of the request to the i-th channel A _{i (N-i + 1)} .

The disadvantage of this device is the determination of seniority of priorities of only one rank.

The reasons that impede the achievement of the technical result indicated below include the lack of funds for analyzing the rank of multi-priority requests and indicating the rank number of the priority request.

The technical result of the invention is to expand the functionality in terms of the ability to analyze the rank of multi-channel queries and indicate the rank number of the priority request in the form of a unitary code "1 from M".

The specified technical result in the implementation of the invention is achieved by the fact that in the arbiter of priorities of multi-channel requests containing the first group of N external outputs of the pointers of the highest priority group U1, U2, ..., UN and the first block of the pointer of the senior unit 2, containing the second group of (N-2) elements OR 3 ₁ , 3 ₂ , ..., 3 _(N-2) and the first group of (N-1) inhibit elements AND with one inverse input 4 ₁ , 4 ₂ , ..., 4 _(N-1) , the outputs of which are the first (N-1) external outputs U ₁ , U ₂ , ..., U _(N-1) from the first group of external outputs of the pointers of the highest priority group a, and in the first block of the pointer of the senior unit 2, the outputs of all the elements of the second group of (N-2) elements OR 3 ₁ , 3 ₂ , ..., 3 _{(N-2) are} connected to the second inverse inputs of the corresponding first (N-2) elements 4 ₁ , 4 ₂ , ..., 4 _{(N-2) of the} first group of prohibition elements AND with one inverse input, as well as the first and second inputs of the first (N-2) elements 3 ₁ , 3 ₂ , ..., 3 _{(N- 2)} from the second group of elements, OR are connected respectively to the first direct and second inverse inputs of the corresponding (N-2) elements 4 ₂ , 4 ₃ , ..., 4 _(N-1) , starting from the second element to the last (N-1) element ervoy group of elements of the ban and one inverting input,

additionally introduced N groups of external inputs of requests IZ1, IZ2, ..., IZN, each of which contains M bits of priority rank (the highest group has IZN and the highest priority rank has the highest Mth rank), the second group of M external pointer outputs the highest priority in the group OZ1, OZ2, ..., OZM, the first group of N elements OR 1 ₁ , 1 ₂ , ..., 1 _N , the matrix of elements AND 5ij, consisting of i rows of j elements AND in each row (where i = 1, 2, ..., N, j = 1, 2, ..., M), a third group of M elements OR 6 _1, 6 _2, ... 6 _M and the second block oldest pointer unit 7, containing th fourth group of (M-2) cells, or 8 _1, 8 _2, ..., 8 _(M-2) and a second group of the (M-1) elements prohibition and with one inverted input 9 _1, 9 _2, ... 9 _(M-1)

moreover, all M priority bits of each of the N groups of external input requests IZ1, IZ2, ..., IZN are connected to the corresponding inputs of the same elements of the first group of N elements OR 1 ₁ , 1 ₂ , ..., 1 _N , the outputs of which are the inputs of the first block of the highest pointer unit 2, in which the first (N-1) inputs are connected to the first direct inputs of the corresponding first (N-1) elements 4 ₁ , 4 ₂ , ..., 4 _(N-1) , starting from the first element to the last (N-1 ) element 4 _{(N-1) of the} first group of prohibition elements AND with one inverse input of the first block of the pointer of the senior unit 2, and p the last N-th input of the first block of the pointer of the senior unit 2 is connected to the second inverse input of the last (N-1) element 4 _(N-1) , the first group of prohibition elements And with one inverse input of the first block of the pointer of the senior unit 2 and is the last N- the external output UN from the first group of external outputs of the pointers of the highest priority group,

the first inputs of the same elements AND matrix 5ij of each i-th row (where i = 1, 2, ..., N, j = 1, 2, ..., M) are interconnected and connected to the corresponding i-th external outputs U1, U2, ..., UN from the first group of external outputs of the pointers of the highest priority group, and the second inputs of the elements AND of the matrix 5ij of each i-th row are connected to the corresponding j-th inputs of the corresponding i-th groups of the external i-input requests IZ1, IZ2, ..., IZN,

the outputs of the elements AND of the matrix 5ij in j columns are connected to the corresponding inputs of the corresponding j-th elements of the third group of M elements OR 6 ₁ , 6 ₂ , ..., 6 _M , the outputs of which are the inputs of the second block of the pointer of the senior unit 7, in which the first (M -1) inputs, starting from the first input to the penultimate input, connected to the first inputs of the corresponding elements And the second group of (M-1) elements of the ban And with one inverse input 9 ₁ , 9 ₂ , ..., 9 _(M-1) , moreover, the first and second inputs of the first (M-2) elements 8 ₁ , 8 ₂ , ..., 8 _(M-2) from the fourth group of elements And the second block of the pointer of the senior unit 7 is connected respectively to the first direct and second inverse inputs of the corresponding (M-2) elements 9 ₂ , 9 ₃ , 9 _(M-1) , starting from the second element to the last (M-1) element, the second group of AND elements with one inverse input, as well as the outputs (M-2) of elements 8 ₁ , 8 ₂ , ..., 8 _(M-2) from the fourth group of OR elements connected to the second inverse inputs of the corresponding first (M-2) elements 9 _1, 9 _2, ... 9 _(M-2) a second group of elements to prohibit and one inverted input, the outputs of which are respectively about the first (M-1) outputs OZ1, OZ2, ..., OZ (M-1) of the second group of M external outputs of pointers of the highest priority rank in the group, and the last M-th input of the second block of the pointer of the senior unit 7 is connected to the second inverse input the last (M-1) -go element 9 _{(M-1) of the} second group of AND inhibitors with one inverse input and is the last M-th external OZM output from the second group of external outputs of pointers of the highest priority rank in the group.

In FIG. Figure 1 shows the scheme of the proposed priority arbiter of multichannel requests for N = 5 groups of external input inputs of requests IZ1, IZ2, ..., IZ5 (IZN), each of which contains M = 4 bits of the priority rank (the highest priority group is IZ5, and the highest priority rank has senior 4th category).

In FIG. 1, the following notation is introduced:

IZ1, IZ2, ..., IZ5 (IZN) - N = 5 groups of external request inputs, each of which contains M = 4 digits of priority rank (the highest priority is given to the highest group IZ5 (IZN), and the highest priority rank has the highest M = 4- th category).

U1, U2, ..., U5 (UN) - the first group of N = 5 external outputs of the pointers of the highest priority group,

OZ1, OZ2, ..., OZ4 (OZM) - the second group of M = 4 external outputs of pointers of the highest priority rank in the group,

1 ₁ , 1 ₂ , ..., 1 _N - the first group of N = 5 elements OR,

2 - the first block of the pointer of the highest unit,

3 ₁ , 3 ₂ , ..., 3 _(N-2) - the second group of (N-2) = 3 elements OR the first pointer of the highest unit 2,

4 ₁ , 4 ₂ , ..., 4 _(N-1) - the first group of (N-1) = 4 prohibition elements AND with one inverse input of the first pointer of the highest unit 2,

5ij is the matrix of AND elements, consisting of i rows of j AND elements in each row,

where i = 1, 2, ..., 5 (N = 5), j = 1, 2, ..., 4 (M = 4),

6 ₁ , 6 ₂ , ..., 6 _M - the third group of M = 4 elements OR,

7 - the second block of the pointer of the highest unit,

8 ₁ , 8 ₂ , ..., 8 _(M-2) -fourth group of (M-2) = 2 elements OR second pointer of the senior unit 7,

9 ₁ , 9 ₂ , ..., 9 _(M-1) - the second group of (M-1) = 3 prohibition elements AND with one inverse input of the second pointer of the highest unit.

The proposed arbiter of priority of multi-channel requests contains N groups of external input inputs of requests IZ1, IZ2, ..., IZN, each of which contains M bits of priority rank (the highest priority is given to the highest group IZN, and the highest priority rank has the highest Mth rank), the first group of N external outputs of pointers of the highest priority group U1, U2, ..., UN and the second group of M external outputs of pointers of the highest priority rank in the group OZ1, OZ2, ..., OZM.

The proposed arbiter of priorities of multichannel requests also contains the first group of N elements OR 1 ₁ , 1 ₂ , ..., 1 _N , the first block of the highest unit pointer containing the second group of (N-2) elements OR 3 ₁ , 3 ₂ , ..., 3 _(N-2) and the first group of (N-1) inhibit elements AND with one inverse input 4 ₁ , 4 ₂ , ..., 4 _(N-1) , the matrix of elements And 5ij, consisting of i rows of j elements AND in each line (where i = 1, 2, ..., N, j = 1, 2, ..., M), the third group of M elements OR 6 ₁ , 6 ₂ , ..., 6 _M and the second block of the pointer of the senior unit 7, containing the fourth group of (M-2) elements OR 8 ₁ , 8 ₂ , ..., 8 _(M-2) and the second group of (M-1) prohibition elements AND with one inverse input 9 ₁ , 9 ₂ , ..., 9 _(M-1) .

All M priority bits of each of the N groups of external input requests IZ1, IZ2, ..., IZN are connected to the corresponding inputs of the same elements of the first group of N elements OR 1 ₁ , 1 ₂ , ..., 1 _N , the outputs of which are the inputs of the first block of the highest unit pointer 2, in which the first (N-1) inputs are connected to the first direct inputs of the corresponding first (N-1) elements 4 ₁ , 4 ₂ , ..., 4 _(N-1) , starting from the first element to the last (N-1) element, the first group of prohibition elements AND with one inverse input of the first block of the pointer of the highest unit 2, and the last N- th first block entrance pointer oldest unit 2 is connected to a second inverted input of the (N-1), member 4 _(N-1) of the first group of elements to prohibit and one first pointer block inverse input older unit 2 and the last N-th external output UN from the first group of external exits of pointers of the highest priority group

In the first block of the senior unit 2 pointer, the outputs of all elements of the second group of (N-2) elements OR 3 ₁ , 3 ₂ , ..., 3 _{(N-2) are} connected to the second inverse inputs of the corresponding first (N-2) elements 4 ₁ , 4 ₂ , ..., 4 _{(N-2) of the} first group of AND inhibitors with one inverse input, as well as the first and second inputs of the first (N-2) elements 3 ₁ , 3 ₂ , ..., 3 _(N-2) of the second group of OR elements are connected respectively to the first direct and second inverse inputs of the corresponding (N-2) elements 4 ₂ , 4 ₃ , ..., 4 _(N-1) , starting from the second element to the last (N-1) element, the first gr ppy elements of the ban and one inverted input.

The outputs of the elements of the first group of (N-1) inhibit elements And with one inverse input 4 ₁ , 4 ₂ , ... 4 _(N-1) , are the first (N-1) external outputs U1, U2, ..., U (Nl) from the first group of external exits of pointers of the highest priority group.

The first inputs of the same elements and matrix 5ij of each i-th row (where i = 1, 2, ..., N, j = 1, 2, ..., M) are interconnected and connected to the corresponding i-th external outputs U1, U2, ..., UN from the first group of external outputs of the pointers of the highest priority group, and the second inputs of the elements AND of the matrix 5ij of each i-th row are connected to the corresponding j-th inputs of the corresponding i-th groups of the external i-input requests IZ1, IZ2, ..., IZN,

The outputs of the elements AND of the matrix 5ij in j columns are connected to the corresponding inputs of the corresponding j-th elements of the third group of M elements OR 6 ₁ , 6 ₂ , ..., 6 _M , the outputs of which are the inputs of the second block of the pointer of the senior unit 7, in which the first (M -1) inputs, starting from the first input to the penultimate input, connected to the first inputs of the corresponding elements And the second group of (M-1) elements of the ban And with one inverse input 9 ₁ , 9 ₂ , ..., 9 _(M-1) , the first and second inputs of the first (M-2) elements 8 ₁ , 8 ₂ , ..., 8 _(M-1) from the fourth group of elements And the second block of the pointer of the senior unit 7 is connected respectively to the first direct and second inverse inputs of the corresponding (M-2) elements 9 ₂ , 9 ₃ , ..., 9 _(M-1) , starting from the second element to the last (M-1) element, the second group of AND elements with one inverse input, and the outputs (M-2) of elements 8 ₁ , 8 ₂ , ..., 8 _(M-2) from the fourth group of OR elements are connected to the second inverse inputs of the corresponding first (M- 2) elements 9 ₁ , 9 ₂ , ..., 9 _{(M-2) of the} second group of prohibition elements AND with one inverse input, the outputs of which correspond to First, the first (M-1) outputs OZ1, OZ2, ..., OZ (M-1) of the second group of M external outputs of the pointers of the highest priority rank in the group, and the last M-th input of the second block of the pointer of the senior unit 7 is connected to the second inverse input the last (M-1) -go element 9 _{(M-1) of the} second group of AND inhibitors with one inverse input and is the last M-th external OZM output from the second group of external outputs of pointers of the highest priority rank in the group.

The principle of operation of the proposed device is as follows.

The proposed multi-channel request priority arbiter allows you to determine the number of the highest priority group and the rank number of the highest priority request in this priority group. Moreover, when analyzing requests, the group of requests has the highest priority, and then the rank of the highest priority request is determined for this group. At the outputs of the first group of N external outputs of the pointers of the highest priority group U1, U2, ..., UN and the second group of M external outputs of the pointers of the highest priority OZ1, OZ2, ..., OZM, the results are generated in the form of a unitary code, respectively, “1 of N” and “ 1 from M ".

The input signals of the device simultaneously receive request signals for N groups of external input inputs of requests IZ1, IZ2, ..., IZN. In addition, each group of requests is assigned a fixed priority. In the device, the highest priority is assigned to the request group with the highest IZN number, and then the priority decreases from number to number. The lower priority is set for the first group of requests IZ1. In addition, each group of requests contains M bits of rank priority. In this case, each rank is assigned a fixed rank. In the proposed device, the highest priority rank is assigned to the category with the highest number M, and then the priority is reduced from number to number. The lowest priority rank is assigned to the first category of requests.

When several request signals arrive in the first group of N elements OR 1 ₁ , 1 ₂ , ..., 1 _N , the presence of requests in each of N groups is determined. If there are requests in the corresponding groups, the outputs of the corresponding elements OR 1 ₁ , 1 ₂ , ..., 1 _N are set to single signals that are fed to the inputs of the block of the first pointer of the senior unit 2, in which the group number with the highest priority and at one of the outputs is determined a single signal is set corresponding to the number of this group in the code, respectively, “1 of N”.

The signals from the outputs of the block of the first pointer of the senior unit 2 are fed to the first inputs of the corresponding elements And rows of the matrix 5ij. Moreover, only in one row of the matrix of elements 5ij, corresponding to the priority group for which a single signal is installed at the output of the first block of the highest unit pointer, the signals of the corresponding request bits of this group are received at the outputs of the elements And of the matrix 5i. The outputs of the AND elements of the matrix 5ij in columns arrive at the corresponding inputs of the OR elements of the third group of M elements 6 ₁ , 6 ₂ , ..., 6 _M , corresponding to the same columns j.

The signals from the outputs of the OR elements of the third group of M elements 6 ₁ , 6 ₂ , ..., 6 _M are fed to the inputs of the second block of the highest unit indicator 7. In this block, the outputs are set to a single signal corresponding to the highest rank number in the group with the highest priority in the code accordingly "1 from M".

Thus, at the N outputs of the first group of external outputs of the pointers of the highest priority group U1, U2, ..., UN, the result is formed in the form of a unitary code “1 of N”, and at the M outputs of the second group of external outputs of the pointers of the highest priority rank in the group OZ1, OZ2 , ..., OZM, the result is formed in the form of a unitary code “1 from M”.

The proposed arbiter priority of multichannel requests works as follows.

The N groups of external request inputs IZ1, IZ2, ..., IZN, each of which contains M digits of a priority rank (the highest group is IZN, and the highest priority rank has the highest Mth rank), request signals are received simultaneously. These signals in N groups are supplied by M bits to the inputs of the corresponding elements OR of the first group of N elements 1 ₁ , 1 ₂ , ..., 1 _N.

In the first group of N elements OR 1 ₁ , 1 ₂ , ..., 1 _N , the presence of queries in each of N groups is determined and, if there are queries, the formation of a unit value at the outputs of the corresponding N elements OR 1 ₁ , 1 ₂ , ..., 1 _N. These signals, among which there may be several unit signals, are fed to the inputs of the block of the first pointer of the highest unit 2. At the outputs of the second group of elements OR 3 ₁ , 3 ₂ , ..., 3 _(N-2) ), combined into a chain, the input code of the groups requests are converted to the code "00 ... 011..1", where the left (highest) unit corresponds to the highest priority group. Then, at the output of only one element from the first group of prohibition elements AND with one inverse input 4 ₁ , 4 ₂ , ..., 4 _(N-1) , the inputs of which are given the values “01”, a single value is generated that indicates the request group with the highest priority, and the remaining outputs will be set to zero. These values from the outputs of the first group of inhibit elements AND with one inverse input 4 ₁ , 4 ₂ , ..., 4 _(N-1) are transmitted to (N-1) external outputs of the first group U1, U2, ..., U (N-1) High priority group pointers. If the highest priority request corresponds to the highest IZN request group, then the unit value is transmitted from the output of the last Nth OR OR 1 _N element and is set only at the output of the highest pointer of the UN group. Thus, at the N outputs of the first group of external outputs of the pointers of the highest priority group U1, U2, ..., UN, the result is formed in the form of a unitary code “1 of N”.

In addition, at the same time, the signals from the outputs of the first group of AND elements with one inverse input 4 ₁ , 4 ₂ , ..., 4 _(N-1) are transmitted to the first inputs of the corresponding elements AND groups (rows) of the matrix 5ij. Since a single signal is installed only on one output of the first group of AND inhibitors with one inverse input 4 ₁ , 4 ₂ , ..., 4 _(N-1) , the corresponding group with the highest priority from N groups of external input inputs of requests IZ1, IZ2, ..., IZN, then in the matrix of elements And 5ij only in one row to the outputs of the elements And external request signals corresponding to this group with the highest priority will be transmitted. At the outputs of other rows of the matrix of elements AND 5ij, zero values will be set. The signals from the outputs of the elements AND of the matrix 5ij are transmitted through the columns to the corresponding inputs of the elements of the OR of the third group of M elements 6 ₁ , 6 ₂ , ..., 6 _M , corresponding to the columns of the same name j.

At the outputs of the OR elements of the third group of M elements 6 ₁ , 6 ₂ , ..., 6 _M , the values corresponding to the external request signals for the group with the highest priority will be set, which then go to the inputs of the second block of the pointer of the highest unit 7. At the outputs of the fourth group of OR elements 8 ₁ , 8 ₂ , ..., 8 _(M-2) , chained together, the input code of the request groups is converted to the code "00 ... 011..1", where the left (highest) unit corresponds to the highest rank of the request in the highest priority group. Then, at the output of only one element from the second group of inhibit elements AND with one inverse input 9 ₁ , 9 ₂ , ..., 9 _(M-1) , the inputs of which are given the values “01”, a single value is generated that indicates a request with the highest priority , and the remaining outputs will be set to zero. These values from (M-1) outputs of the second group of inhibit elements AND with one inverse input 9 ₁ , 9 ₂ , ..., 9 _(M-1) are transmitted to (M-1) external outputs of the second group OZ1, OZ2, ..., OZ (M-1) pointers of the highest priority rank in the group. If the highest priority request corresponds to the highest rank in the query group, then the unit value is transmitted from the output of the last _Mth element OR 6 _M and is set only at the last senior output OZM of the index of the highest priority rank in the group. Thus, at the M outputs of the second group of external outputs of pointers of the highest priority rank in the group OZ1, OZ2, ..., OZM, the result is formed in the form of a unitary code “1 from M”.

Thus, in the proposed device, at the outputs of the first group of N external outputs of the pointers of the highest priority group U1, U2, ..., UN, signals corresponding to the number of the highest priority group in the unitary code “1 from N” will be set, and at the outputs of the second group from M external outputs of pointers of the highest priority rank in the group OZ1, OZ2, ..., OZM, the value corresponding to the number of the highest priority rank in the unitary code “1 from M” will be set.

The above information allows us to conclude that the proposed arbiter of priorities of multichannel requests has a regularity of nodes and connections and corresponds to the claimed technical result - the expansion of functionality in terms of the ability to analyze the rank of multichannel requests and indicate the rank number of the priority request in the form of a unitary code "1 from M".

Claims (5)

Arbitrator of priorities for multi-channel requests, containing the first group of N external outputs of the pointers of the highest priority group U1, U2, ..., UN and the first block of the highest unit pointer 2, containing the second group of (N-2) elements OR 3 ₁ , 3 ₂ , ..., 3 _(N-2) and the first group of (N-1) inhibitors AND with one inverse input 4 ₁ , 4 ₂ , ..., 4 _(N-1) , the outputs of which are the first (N-1) external outputs U1, U2, ..., U (N-1) from the first group of external outputs of the pointers of the highest priority group, and in the first block of the pointer of the highest unit 2, the outputs of all elements of the second group of (N-2) of the elements OR 3 _1, 3 _2, ..., 3 _(N-2) connected to the second inverted input corresponding first (N-2) of the elements 4 _1, 4 _2, ..., 4 _(N-2) of the first groups of prohibition AND elements with one inverse input, as well as the first and second inputs of the first (N-2) elements 3 ₁ , 3 ₂ , ..., 3 _(N-2) from the second group of OR elements are connected respectively to the first direct and second inverse inputs of the corresponding (N-2) elements 4 ₂ , 4 ₃ , ..., 4 _(N-1) , starting from the second element to the last (N-1) element of the first group of inhibit elements AND with one inverse input, characterized in that it additionally contains N groups of external input requests IZ1, IZ2, ..., IZN, each of which contains M bits of priority rank (the highest priority is the highest group IZN, and the highest priority rank has the highest Mth rank), the second a group of M external outputs of pointers of the highest priority rank in the group OZ1, OZ2, ..., OZM, the first group of N elements OR 1 ₁ , 1 ₂ , ..., 1 _N , the matrix of elements AND 5ij, consisting of i rows of j elements AND in each row (where i = 1, 2, ..., N, j = 1, 2, ..., M), a third group of M elements OR 6 _1, 6 _2, ... 6 _M and the second indicator unit older unit 7 comprising a fourth group of (M-2) cells, or 8 _1, 8 _2, ..., 8 _(M-2) and a second group of the (M-1) elements prohibition and with one inverted input 9 _1, 9 ₂ , ..., 9 _(M-1) , moreover, all M priority bits of each of the N groups of external input requests IZ1, IZ2, ..., IZN are connected to the corresponding inputs of the same elements of the first group of N elements OR 1 ₁ , 1 ₂ , ..., 1 _N , the outputs of which are the inputs of the first block of the highest pointer unit 2, in which the first (N-1) inputs are connected to the first direct inputs of the corresponding first (N-1) elements 4 ₁ , 4 ₂ , ..., 4 _(N-1) , starting from the first element to the last (N-1 ) element 4 _{(N-1) of the} first group of prohibition elements AND with one inverse input of the first block of the pointer of the senior unit 2, and p the last N-th input of the first block of the pointer of the senior unit 2 is connected to the second inverse input of the last (N-1) element 4 _{(N-1) of the} first group of prohibition elements And with one inverse input of the first block of the pointer of the senior unit 2 and is the last N-th external output UN from the first group of external outputs of the pointers of the highest priority group, the first inputs of the same elements AND matrix 5ij of each i-th row (where i = 1, 2, ..., N, j = 1, 2, ..., M) are interconnected and connected to the corresponding i-th external outputs U1, U2, ..., UN from the first group of external outputs of the pointers of the highest priority group, and the second inputs of the elements AND of the matrix 5ij of each i-th row are connected to the corresponding j-th inputs of the corresponding i-th group of the external i-inputs of the request inputs IZ1, IZ2, ..., IZN, the outputs of the elements AND of the matrix 5ij in j columns are connected to the corresponding inputs of the corresponding j-th elements of the third group of M elements OR 6 ₁ , 6 ₂ , ..., 6 _M , the outputs of which are the inputs of the second block of the pointer of the senior unit 7, in which the first (M -1) inputs, starting from the first input to the penultimate input, connected to the first inputs of the corresponding elements And the second group of (M-1) elements of the ban And with one inverse input 9 ₁ , 9 ₂ , ..., 9 _(M-1) , moreover, the first and second inputs of the first (M-2) elements 8 ₁ , 8 ₂ , ..., 8 _(M-2) from the fourth group of elements OR the second block of the pointer of the senior unit 7 are connected respectively to the first direct and second inverse inputs of the corresponding (M-2) elements 9 ₂ , 9 ₃ , ..., 9 _(M-1) , starting from the second element to the last (M-1) element the second group of AND elements with one inverse input, as well as the outputs (M-2) of elements 8 ₁ , 8 ₂ , ..., 8 _(M-2) from the fourth group of OR elements connected to the second inverse inputs of the corresponding first (M-2) elements 9 _1, 9 _2, ... 9 _(M-2) a second group of elements to prohibit and one inverted input, the outputs of which are the corresponding but the first (M-1) outputs OZ1, OZ2, ..., OZ (M-1) of the second group of M external outputs of pointers of the highest priority rank in the group, and the last Mth input of the second block of the pointer of the senior unit 7 is connected to the second inverse input the last (M-1) -th element 9 _{(M-1) of the} second group of prohibition elements AND with one inverse input and is the last M-th external OZM output from the second group of external outputs of pointers of the highest priority rank in the group.

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