CN103218343A - Inter-multiprocessor data communication circuit adopting data driving mechanism - Google Patents
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Abstract
The invention relates to an inter-multiprocessor data communication circuit adopting a data driving mechanism. The inter-multiprocessor data communication circuit comprises a cross-point switch matrix, four DFM (Data Flow Memorizers) and four matching circuits. As shown in a figure, in data sending, a source CPU (Central Processing Unit) can pass through the matching circuits which are connected with the source CPU through a preset protocol, and then data can be sent to the cross-point switch matrix for realizing data transmission; and in data receiving, source data can be firstly sent to an output port corresponding to the cross-point switch matrix after selecting a path through the cross-point switch matrix, output data can be input into the DFM, and function number and data can be taken out and sent to a corresponding target CPU after completeness detection of the DFM. According to the inter-multiprocessor data communication circuit disclosed by the invention, the communication bottleneck problem of a multinuclear structure can be solved.
Description
Technical field
The present invention relates to datel circuit between a kind of multiprocessor that adopts data-driven mechanism, but a kind of specifically data-driven telecommunication circuit that relates to the high concurrency of a kind of array of data flow driven technology, corsspoint switch matrix technology.
Background technology
Polycaryon processor is meant examines the technology that is integrated on the chip piece to plurality of processors, to strengthen calculated performance.The CMP(on-chip multi-processor), and relies on and interconnectedly on the high-speed chip of internal memory and input and output (I/O) system performance is promoted with large-bandwidth pipe by the load that on a plurality of CPU nuclear, shares out the work.Polycaryon processor than current single core processor, can bring more property and productivity advantage, thereby becomes a kind of computation schema of extensively popularizing the most at last.
Processor development so far, the intervention of factors such as thermal value and interference makes the frequency of single processor more and more level off to a limit.The strongest evidence is that power consumption constantly increases.No matter whether chip works, and the trend that leakage current increases is more and more significant, thereby can't improve the frequency of operation of processor more as before.In addition, improve performance, need expensive cost by changing single core architecture.So far, multi-core technology has become the last trump that improves performance, and each CPU producer also begins to change the design model, and following all microprocessors are main flow towards multinuclear heart designs all, and traditional unitary core processor will be left the leading post.About double-core, from being announced to the world splendidly of ALTHON 64 X2 series, Duo is till now shown disdain for heroes, arrives the issue of double-core Anthem II again, and double-core has been the main product of existing market.In the server field, the double-core processor is with its remarkable performance, and lower cost is also received by most of enterprises.
A key issue of multiple nucleus system is a multiple programming, and existing program all is based on control stream machine, all is order is carried out, and how to realize effective multiple programming, and this is a big problem.
The gordian technique of multiple nucleus system is the design of network-on-chip communication.At present, the interconnected communication of polycaryon processor has multiple different design, but communication etc. how effectively to handle the huge processor core of cooperation, quantity between the huge multiple nucleus system of quantity also exists problems.
At above multiple programming and network-on-chip communication issue, the present invention proposes datel circuit between the multiprocessor that adopts data-driven mechanism.But be characterized in data-driven array and high concurrency, data-driven can fully be excavated the concurrency of hiding between data, reduced the difficulty of multiple programming, but array makes that its extensibility is strong, high concurrency makes it possible to handle a plurality of data simultaneously, has improved communication speed.Adopted corsspoint switch matrix to transmit data in the circuit of the present invention based on the efficient dispatching algorithm of iSLIP, this is a kind of structure of chip-on communication efficiently, and designed data stream private memory DFM (Data Flow Memory), be used for data-driven, fully excavated concurrency potential between data.
Summary of the invention
The objective of the invention is: at facing multiple programming and network-on-chip communication issue in the multi-core system structure, the invention provides datel circuit between a kind of multiprocessor that adopts data-driven mechanism, can solve coenocytism preferably and the communication performance bottleneck problem occur.
For achieving the above object, technical scheme of the present invention is: datel circuit between a kind of multiprocessor that adopts data-driven mechanism comprises: a corsspoint switch matrix, 4 data stream storeies, 4 match circuits.Connected mode is as shown in Figure 1: when sending data and transmitting, source CPU according to before the agreement reserved send data to corsspoint switch matrix through a match circuit and realize data transmission; When receiving data, at first be sent to the corresponding output port of corsspoint switch matrix behind the source data process corsspoint switch matrix selection path, the data of output enter data stream stream storer, after detecting through data stream reservoir completeness, take out function and number are sent to corresponding target CPU with data.
Above-mentioned data stream storer is to aim at the exclusive data function memory of function series according to the design of stream driving mechanism, realizes that mainly function extracts and data storage function.
Above-mentioned match circuit is used to mate the sequential between CPU nuclear and the corsspoint switch matrix, makes that data can correct excessively transmission, makes the sequential coupling.
The iSLIP dispatching algorithm that scheduler in the above-mentioned corsspoint switch matrix adopts has guaranteed the fair and just property of dispatching, and has solved phenomenon hungry to death, and has realized 100% handle up.
Load module in the above-mentioned corsspoint switch matrix has proposed a kind of circuit structure based on chained list, has avoided a choking phenomenon, than the method for traditional VOQ, has reduced the consumption of hardware resource.
The present invention has following conspicuous outstanding substantive distinguishing features and significantly technical progress compared with prior art:
(1) adopted data-driven mechanism, designed the data stream private memory, carried out as long as the required data of CPU arrive just to drive, excavated potential data parallelism, the difficulty that has reduced multiple programming makes the easier realization of parallel processing.
(2) provided detailed design scheme-corsspoint switch matrix that a kind of network-on-chip is communicated by letter.What this interconnect architecture had overcome the interconnected appearance of bus does not support the multinuclear heart, the shortcoming that handling capacity is low;
(3) adopted the corsspoint switch matrix structure, but it is strong to have characteristics, the extensibility of array.
(4) adopted the corsspoint switch matrix structure, had high parallel communications ability than bus structure.
Description of drawings
Fig. 1 is system's general diagram.
Fig. 2 is a data stream memory circuitry structural drawing.
Fig. 3 is a data processing module
Fig. 4 is the tag update module circuit diagram
Fig. 5 is a match circuit
Fig. 6 is the corsspoint switch matrix Organization Chart.
Fig. 7 is a corsspoint switch matrix load module structural drawing.
Fig. 8 is a corsspoint switch matrix scheduler module structural drawing.
Fig. 9 is the moderator structural drawing in the scheduler.
Embodiment
Details are as follows in conjunction with the accompanying drawings for the preferred embodiments of the present invention:
Embodiment one:
As shown in Figure 1, datel circuit comprises a corsspoint switch matrix (1), 4 data stream storeies (2 between the multiprocessor of the employing data-driven mechanism of the present invention's proposition
0, 2
1, 2
2, 2
3), four match circuits (3
0, 3
1, 3
2, 3
3).It is characterized in that: when sending the data transmission, source CPU is according to the agreement process match circuit of reserving before (3
0, 3
1, 3
2, 3
3) send data to corsspoint switch matrix (1) and realize data transmission; When receiving data, at first be sent to the corresponding output port of corsspoint switch matrix (1) behind source data process corsspoint switch matrix (1) the selection path, the data of output enter data stream stream storer (2
0, 2
1, 2
2, 2
3), through data stream private memory (2
0, 2
1, 2
2, 2
3) after completeness detects, take out function and number be sent to corresponding target CPU with data.
Embodiment two:
Present embodiment and embodiment one are basic identical, and special feature is as follows:
<one 〉, data stream storer
Referring to Fig. 2, the data stream storer is a kind of special storer, mainly is made up of FIFO storage, data processing module, tag update module, RAM data-carrier store and FIFO function memory.Wherein FIFO storage is mainly used in the data of storage input, makes reception and the transmission that data can be correct; Wherein data processing module is made up of data sementation taking-up, address generator, code translator, position expansion and steering logic again, take out function number, data number and data in the input data, and generate corresponding address by address generator, operate accordingly thereby data are sent to relevant functional module, and generate corresponding operand label; Wherein the tag update module is made up of label maker, label function data table register and other steering logics again.Its major function is for receiving the function that taken out by data preprocessing module number, check the data completeness, if data are complete, generate corresponding function label, then according to label, number export function to the FIFO function memory and wait for that purpose CPU takes function number, data number and data away and handles.Its operating process is as follows:
1. receive new data, in the temporary FIFO storage of data from corsspoint switch matrix;
2. data processing module reads the data in the FIFO storage, takes out function number, data number, generates corresponding address, valid data output is stored in the corresponding RAM data-carrier store, and generated corresponding operand marking signal.
3. the tag update module is according to the operand marking signal that receives, generate corresponding function label by label generator, and the function desired data table that label is stored together in advance compares, for the whole efficient functions of desired data, generate the effective marker position, notice purpose CPU, data are complete, the execution of driving purposes CPU, and corresponding function number is stored in the FIFO function memory, waiting for CPU reads.
In case 4. these data were used, it is invalid just its sign to be changed to.
Above-mentioned data processing module, referring to Fig. 3, mainly by data sementation taking-up, address generator, code translator, position expansion, registers group and the door that some are basic constitute.As seen from the figure, at first, data enter data sementation and take out, take out corresponding function number, data number, valid data, address generator is (with function number with data number and put and form then, function is number preceding, and data number is in the back) number generate corresponding valid data memory address according to function with data number; Simultaneously, function number process code translator, generation is thought the enable signal that corresponding enable signal and data number obtain and is write enable signal and carry out depositing output with the corresponding operand sign of operation generation.
Above-mentioned tag update module is made up of label maker, label function data table register and other steering logics.Its key component is the label maker.The label maker as shown in Figure 4, mainly form by rising edge testing circuit and some simple gate circuits, as seen from the figure, when the required operand of a certain function is complete, be that operand 0 label and operand 1 label all are 1 o'clock, just, produce the function label signal, and these all label signals are exactly label value after deciphering by the rising edge testing circuit.
<two 〉, match circuit
Match circuit mainly is made up of rising edge testing circuit and trigger as shown in Figure 5, and its function is to make the sequential and the external world of CPU nuclear output data be complementary, thereby data are correctly transmitted.Its connected mode: input effectively is introduced into the one-level register and deposits, when next clock arrives, with current input effectively with the effective negate of the input of depositing before with, the result who obtains deposits with register output again, valid data then directly enter register and deposit, and come labeled data position valid data by the rising edge that detects useful signal.As shown in the figure, the rising edge testing circuit detects the effective rising edge of input, if having, will produce the high level of one-period, this signal through one-level trigger match after as new input useful signal, when having only this signal effective, output data is just effective, and this has just realized the requirement of sequential coupling.
<three 〉, corsspoint switch matrix
As Fig. 6: data are introduced into load module and deposit, and pass through the cross bar switch array then, deposit output by output module at last.The cross bar switch array is by scheduler module control transmission path.
Above-mentioned load module, its function stores it when each data is waited for scheduling for receiving the packet that needs transmission, when scheduling is finished corresponding packet is sent to the purpose output port.Owing to will wait for that this just relates to queuing problem, if simply use FIFO, will produce head and block (HOL) problem as formation, generally can adopt virtual queue to solve an obstructing problem, but this can increase hardware resource consumption.Based on this, the present invention proposes a kind of structure based on the chain list index, as shown in Figure 7:
The composition of load module comprises: 4 memory arrays, a FIFO, a shift register.Main storer is a shared memory cell, and it is to be used for depositing 32 bag data, can put 32 bags at most, and other three storeies provide a VOQ.Linked list head and chained list tail have 4 spaces, and the dummy output terminal mouth has been represented in each space.Data in linked list head and the chained list tail are respectively " heads " and " tail " address pointer in shared memory cell of chained list in each output port.And chained list has just been preserved the chained list of each dummy output terminal mouth from " head " to " tail ".FIFO stores in the shared memory cell location idly in the mode of circle queue, so the next address in FIFO is exactly the address of depositing new data packets, and just this address is written to the FIFO after the shared memory cell deletion when packet.The transmission of load module allows signal to be obtained by the scheduler arbitration, and the request signal of each load module each port in scheduler transmission VOQ, this signal is by last position (being the data significance bits) decision of linked list head.This significance bit is 1 o'clock, means that this load module has the request of transmission to corresponding output module.When scheduler after load module send to allow signal and allows port, connection will be established.Load module will be put into shift register with corresponding packet, and 32 packet will divide 4 cycles to export through output module with 8 of phases weekly.
Above-mentioned scheduler is based on repeatedly iteration polling algorithm (iSLIP) design, structure as shown in Figure 8, the transmission that is input as each load module of scheduler takies the vector table that takies that register forms, this value record all need send the dispatching requirement of packet.Have 4 groups of vectors and form, every group of vector represented a load module.The vector registor of this 4*4 is the request signal of iteration arbitration.4 response moderators (Grant Arbiters) and 4 reception moderators (Accept Arbiter) have been comprised in the scheduler again.The effect of response moderator is whether corresponding output module responds the request of each load module to it, and the effect that receives moderator is whether corresponding load module receives the application of output module to it.So 2*4 moderator should be arranged in the network of 4*4.The structure of each moderator all is identical, is made up of priority encoder, and a limit priority that has write down input request in the next arbitration cycle is arranged in the priority encoder.Moderator confirms this time to arbitrate the request that the back is received according to priority.4 iteration promptly will all send to the response input/output module to the connection situation in the register of storage connection annexation behind a cell end cycle.After each iteration finishes, all feed back signal to each moderator, decide in the iteration afterwards and whether also will arbitrate.Feedback signal is made up of busy busy signal and match matched signal.The Busy busy signal has been represented the current state of output module, if output module is in accepting state or peripheral hardware when not having enough spaces, the Busy busy signal will be effectively; The match matched signal represents whether corresponding input/output module connects, if connect, then Xiang Ying moderator will not arbitrated yet.At last, every through after 4 iteration, scheduler will be opened the selector switch that needs connect.
Moderator is a most important parts in the scheduler, and the moderator in the above-mentioned scheduler comprises that mainly priority encoder, pointer upgrade control circuit and form as shown in Figure 9.Moderator is based on priority encoder, and pointer upgrades permits the pointer whether signal (update_enable) decision upgrades the iSLIP algorithm.The circuit diagram of priority encoder mainly comprises fixed priority scrambler, priority encoder able to programme and some control circuits composition shown in the frame of broken lines among Fig. 9.
Claims (9)
1. datel circuit between a multiprocessor that adopts data-driven mechanism is by a corsspoint switch matrix (1), 4 data stream storeies (2
0, 2
1, 2
2, 2
3) and 4 match circuits (3
0, 3
1, 3
2, 3
3) constitute, it is characterized in that: described 4 match circuits (3
0, 3
1, 3
2, 3
3) output be connected to corsspoint switch matrix (1), and 4 outputs of corsspoint switch matrix (1) are connected respectively to 4 data stream storeies (2
0, 2
1, 2
2, 2
3); When sending data and transmitting, source CPU according to the agreement of definition through 4 match circuits (3
0, 3
1, 3
2, 3
3) send data to corsspoint switch matrix (1) and realize data transmission; When receiving data, at first be sent to the corresponding output port of corsspoint switch matrix (1) after source data process corsspoint switch matrix (1) Route Selection, the data of output enter 4 data stream storeies (2 respectively
0, 2
1, 2
2, 2
3), through data stream storer (2
0, 2
1, 2
2, 2
3) after completeness detects, take out function and number be sent to corresponding target CPU with data.
2. datel circuit between the multiprocessor of employing data-driven mechanism according to claim 1 is characterized in that described four data stream storeies (2
0, 2
1, 2
2, 2
3), by a FIFO memory module (2-1), a data processing module (2-2), tag update module (2-3), RAM data memory module (2-4) and FIFO function memory module (2-5) constitute, its connected mode: the data output of described FIFO memory module (2-1) is connected to data processing module (2-2), the write data of data processing module (2-2) is connected to RAM data memory module (2-4), the function 0 of data processing module (2-2) and function 1 are connected to tag update module (2-3), and the data output of tag update module (2-3) is connected to FIFO function memory module (2-5).At first, data enter FIFO(2-1) buffering, as long as detect the FIFO non-NULL, data processing module (2-2) reading of data, extract the function number in the data, data number and valid data, enter address generator by function number and data number and generate the write address that write address is connected to RAM data memory module (2-4), valid data are come in and gone out to RAM data memory module (2-4) according to write address, function number, generating runs such as data number are counted label and are connected to tag update module (2-3) respectively, tag update module (2-3) detecting operation is counted label, if be true all, then with this function tag storage to FIFO function memory module (2-5) buffer memory function label, waiting for CPU reading tag.
3. datel circuit between the multiprocessor of employing data-driven mechanism according to claim 2 is characterized in that described data processing module (2-2) is expanded by address generator, code translator, position and two groups of registers are formed.Its connected mode is: data are imported at first segmentation and are taken out data number, function number and valid data, then the data number and function that takes out number is delivered to address generator and generate corresponding address data memory, energy signal controlling operand label when function number enters negate that decoder for decoding, data number then carry out position expansion and the spacing wave of fifo with generation simultaneously.
4. datel circuit between the multiprocessor of employing data-driven mechanism according to claim 2, it is characterized in that described tag update module (2-3) is made up of rising edge testing circuit and necessary logic gate, its connected mode: with two operand labels with after enter the rising edge testing circuit and see if there is saltus step, generate signal mutually or as the output enable signal, there are the then number data of rising edge to arrive, the signal that the rising edge testing circuit generates is deposited, exported as label.
5. datel circuit between the multiprocessor of employing data-driven mechanism according to claim 1 is characterized in that described four match circuits (3
0, 3
1, 3
2, 3
3) form by a rising edge testing circuit and registers group, its connected mode: input effectively is introduced into the one-level register and deposits, when next clock arrives, with current input effectively with the effective negate of the input of depositing before with, the result who obtains deposits with register output again, valid data then directly enter register and deposit, and come labeled data position valid data by the rising edge that detects useful signal.
6. datel circuit between the multiprocessor of employing data-driven mechanism according to claim 1, it is characterized in that described corsspoint switch matrix (1) comprises scheduler module (1-1), crossed array (1-3) and output module (1-4), one tunnel output of load module (1-2) is connected to crossed array (1-3) after scheduler module (1-1), another road output is directly connected to crossed array (1-3), and the output of crossed array (1-3) is connected to output module (1-4); At first data enter load module (1-2) and deposit, load module (1-2) sends request signal to scheduler module (1-1) simultaneously, scheduler module (1-1) generates response signal, opens the related pathways of crossed array switch (1-3), exports data to output module (1-4).
7. datel circuit between the multiprocessor of employing data-driven mechanism according to claim 6, the scheduler module (1-1) that it is characterized in that described corsspoint switch matrix (1) takies vector table (1-1-1) by one, four response moderators (1-1-2), accept moderator (1-1-3) and store for four to concern that register (1-1-4) constitutes, the output that takies vector table (1-1-1) is connected to response moderator (1-1-2), the output of response moderator (1-1-2) is connected to and receives moderator (1-1-3), and the output that receives moderator (1-1-3) is connected to storage and concerns register; At first take vector table (1-1-1) and be sent to response moderator (1-1-2) according to occupied information input generation request signal, response moderator (1-1-2) generates response signal according to request signal and is sent to reception moderator (1-1-3), receiving moderator (1-1-3) then arbitrates once more according to the arbitrating signals of receiving, the generation corresponding results is sent to storage and concerns register (1-1-4), storage concern that register (1-1-4) then generates mutually or the in response control signal of moderator (1-1-2) of corresponding matched signal and busy signal according to the information that obtains, controls the generation of link signal.
8. datel circuit between the multiprocessor of employing data-driven mechanism according to claim 6, it is characterized in that load module (1-2) in the corsspoint switch matrix (1) is by 1 shared memory cell (1-2-1), 1 storage queue (1-2-2), 1 linked list head (1-2-3), 1 chained list (1-2-4), 1 chained list tail (1-2-5) and 1 shift register (1-2-6) constitute, its structure is: the output of shared memory cell (1-2-1) is connected to shift register (1-2-6), the input of storage queue (1-2-2) is connected to the OPADD of shared memory cell (1-2-1), the output of storage queue (1-2-2) is connected to the Input Address of shared memory cell (1-2-1), and the input of the data of linked list head (1-2-2) and chained list tail (1-2-5) is connected to the Input Address of shared memory cell (1-2-1), make that the data in linked list head (1-2-3) and the chained list tail (1-2-5) are address pointers of shared memory cell (1-2-1), and the input data of linked list head (1-2-3) and chained list tail (1-2-5) and be set to the input data of chained list (1-2-4), 4 of linked list head (1-2-3) outputs take vector and dispatch for scheduler module.
9. datel circuit between the multiprocessor of employing data-driven mechanism according to claim 7, it is characterized in that moderator (1-1-2) in the scheduler module (1-1) has adopted the poll moderator of shielding construction, is made of fixed priority scrambler, variable priority scrambler, demoder, pointer refresh circuit.Its basic structure: arbitration beginning, request signal enters the arbitration of fixed priority moderator, simultaneously, with in the priority register through after the negate as a result that decoder decode obtains with input request with after enter priority encoder able to programme, obtain shielded signal and arbitration result.With shielded signal and fixed priority moderator result and back (realization function of shielding) again with the result of priority encoder able to programme mutually or as exporting the result.If shielding is invalid, gets fixed priority scrambler result and tied for output; If shielded signal is effective, mask fixed priority scrambler result, get priority encoder result able to programme as the output result.Simultaneously, this result pointer of entering upgrades control circuit and carries out the priority pointer and upgrade.
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CN103218344A (en) * | 2013-04-28 | 2013-07-24 | 上海大学 | Data communication circuit arranged among a plurality of processors and adopting data driving mechanism |
CN104850788A (en) * | 2014-02-18 | 2015-08-19 | 瑞萨电子株式会社 | Multiprocessor system |
CN107078945A (en) * | 2014-09-30 | 2017-08-18 | 上海贝尔股份有限公司 | Method and apparatus for the crossing parallel data between multiple entry and multiple exit |
CN108986800A (en) * | 2017-05-31 | 2018-12-11 | 上海智觅智能科技有限公司 | One kind coordinating chained list logic offline voice interactive system and method in real time based on multiprocessor |
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CN118300908A (en) * | 2024-06-06 | 2024-07-05 | 芯云晟(杭州)电子科技有限公司 | Multi-channel connector of serial-parallel transceiver and multi-channel connecting chip of serial-parallel transceiver |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103218344A (en) * | 2013-04-28 | 2013-07-24 | 上海大学 | Data communication circuit arranged among a plurality of processors and adopting data driving mechanism |
CN104850788A (en) * | 2014-02-18 | 2015-08-19 | 瑞萨电子株式会社 | Multiprocessor system |
CN107078945A (en) * | 2014-09-30 | 2017-08-18 | 上海贝尔股份有限公司 | Method and apparatus for the crossing parallel data between multiple entry and multiple exit |
CN108986800A (en) * | 2017-05-31 | 2018-12-11 | 上海智觅智能科技有限公司 | One kind coordinating chained list logic offline voice interactive system and method in real time based on multiprocessor |
CN114168522A (en) * | 2022-02-14 | 2022-03-11 | 北京微核芯科技有限公司 | Data transmission method, device and transmission component |
CN118300908A (en) * | 2024-06-06 | 2024-07-05 | 芯云晟(杭州)电子科技有限公司 | Multi-channel connector of serial-parallel transceiver and multi-channel connecting chip of serial-parallel transceiver |
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