CN105206303A - Test device and test method for memorizer - Google Patents

Abstract

The invention provides a test device and a test method for a memorizer. The memorizer comprises a memory unit and bit lines connected with the memory unit. The test device comprises comparing units; the comparing units are in one-to-one corresponding connection with the bit lines; each comparing unit comprises at least two current comparators; the first input end of each current comparator is connected with a corresponding bit line, while the second input end of the current comparator is suitable for inputting a reference current; the values of reference currents input by the second input ends of the current comparators in the same comparing unit are different.

Description

The proving installation of storer and method of testing

Technical field

The present invention relates to electricity field, particularly relate to a kind of proving installation and method of testing of storer.

Background technology

When reading static RAM (StaticRAM, SRAM), the size of current that the storage unit of SRAM can provide characterizes the complexity of the reading to this storage unit.The electric current that the storage unit of SRAM can provide is larger, then read successful possibility higher, otherwise reads easier failure.

In the test circuit of SRAM, the size of current of test storage unit also makes statistics to the size of current of storage unit, the deviser of sram chip and the producer can be helped to judge the quality of manufacturing process fast, and then make improvement to production technology or design.

Now, in special IC (ApplicationSpecificIntegratedCircuit, ASIC) design, the capacity of SRAM is in megabit, namely may there is the even up to ten million storage unit of hundreds of in a sram chip.Because external test facility speed is comparatively slow, utilize the electric current of external unit to all storage unit to test and make statistics and will expend considerable time, efficiency is extremely low, and does not have practical feasibility.And if the some storage unit of random choose are tested, then will there is very large error in the result of adding up.

Summary of the invention

The problem that the present invention solves is that the method for testing efficiency of existing storer is lower or error is larger.

For solving the problem, the invention provides a kind of proving installation of storer, the bit line that described storer comprises storage unit and is connected with described storage unit, the proving installation of described storer also comprises: comparing unit, described comparing unit and bit line connect one to one, described comparing unit comprises at least two current comparators, the first input end of described current comparator connects bit line, second input end of described current comparator is suitable for input reference electric current, the reference current value being arranged in the second input end input of the current comparator of same comparing unit is not identical.

Optionally, described current comparator is electric current induction amplifier.

Optionally, the proving installation of described storer also comprises: scrambler, and described scrambler and described comparing unit connect one to one, and the output terminal of the current comparator in described comparing unit connects the input end of described scrambler.

Optionally, the quantity of described comparing unit is at least two, and the structure of described at least two comparing units is identical.

The present invention also provides a kind of method of testing of storer, the bit line that described storer comprises storage unit and is connected with described storage unit, and the method for testing of described storer comprises:

The storage unit that activation need be tested, connects different bit lines with the storage unit once activated;

After storage unit is activated, the first numerical coding that the storage unit that acquisition is activated is corresponding, current value on the bit line that the storage unit be activated described in described first numerical coding characterizes connects and the comparative result of at least two reference current values, described at least two reference current values are not identical;

Measure current value on bit line that the storage unit corresponding from the first different numerical codings connect to obtain the corresponding relation of storage unit and current value.

Optionally, the method for testing of described storer also comprises: the first numerical coding is converted to the second numerical coding, and described second digitally coded figure place is less than the first numerical coding.

Optionally, the method for testing of described storer also comprises: the corresponding relation based on described storage unit and current value calculates mean value and the variance of current value corresponding to the storage unit that all need test.

Optionally, the method for testing of described storer also comprises: the corresponding relation based on described storage unit and current value obtains the number of memory cells of need test corresponding to different current value.

Optionally, after obtaining the first numerical coding corresponding to the storage unit that all need test, perform current value on bit line that the described measurement storage unit corresponding from the first different numerical codings connect to obtain the step of the corresponding relation of storage unit and current value.

Optionally, the described storage unit that need test activates several times, after first time is activated and obtains the first numerical coding, or activate and the first numerical coding obtained once to activate with front and the first numerical coding obtained is not identical time, perform current value on bit line that the described measurement storage unit corresponding from the first different numerical codings connect to obtain the corresponding relation of storage unit and current value.

Compared with prior art, technical scheme of the present invention is tested a fairly large number of storage unit, and the measurement operation without the need to performing more number of times, thus reducing the error of measurement, efficiency is also higher.

Accompanying drawing explanation

Fig. 1 is a structural representation of the proving installation of storer of the present invention;

Fig. 2 is another structural representation of the proving installation of storer of the present invention;

Fig. 3 is the another structural representation of the proving installation of storer of the present invention;

Fig. 4 is the schematic flow sheet of the method for testing of storer of the present invention.

Embodiment

For enabling above-mentioned purpose of the present invention, feature and advantage more become apparent, and are described in detail specific embodiments of the invention below in conjunction with accompanying drawing.

The embodiment of the present invention provides a kind of proving installation of storer, described storer comprises: storage unit and the bit line be connected with described storage unit, the proving installation of described storer also comprises: comparing unit, described comparing unit and bit line connect one to one, described comparing unit comprises at least two current comparators, the first input end of described current comparator connects bit line, second input end of described current comparator is suitable for input reference electric current, and the reference current value being arranged in the second input end input of the current comparator of same comparing unit is not identical.The enable signal end of the current comparator in same comparing unit can receive same enable signal, and the current comparator namely in same comparing unit works simultaneously or quits work simultaneously.

As shown in Figure 1, storer comprises bit line BL, and the proving installation of described storer comprises the comparing unit 1 that connect corresponding to bit line BL, and comparing unit 1 comprises n current comparator.The first input end of a described n current comparator all connects the bit line BL be connected with comparing unit 1, the second input end reference current that input current value is different respectively.The proving installation of described storer can also comprise electric capacity C, and the first end of described electric capacity C connects bit line BL, the second end ground connection.Described current comparator can be electric current induction amplifier.

Concrete, a described n current comparator comprises: the 1st current comparator SA1, the 2nd current comparator SA2, the 3rd current comparator SA3 ... n-th current comparator SAn.

The first input end of the 1st current comparator SA1 connects bit line BL, and the second input end is suitable for input the 1st reference current IREF1; The first input end of the 2nd current comparator SA2 connects bit line BL, and the second input end is suitable for input the 2nd reference current IREF2; The first input end of the 3rd current comparator SA3 connects bit line BL, and the second input end is suitable for input the 3rd reference current IREF3; The first input end of the n-th current comparator SAn connects bit line BL, and the second input end is suitable for input n-th reference current IREFn.Wherein, the 1st reference current IREF1, the 2nd reference current IREF2, the 3rd reference current IREF3 ... the current value of the n-th reference current IREFn is all not identical.

Current comparator can export numerical coding 0 or 1 according to the comparative result between the current value on bit line BL and reference current value.Such as, when the current value on bit line BL is greater than reference current value, export numerical coding 1, when the current value on bit line BL is less than reference current value, export numerical coding 0.1st current comparator SA1 exports numerical coding D1, the 2nd current comparator SA2 output numerical coding D2, the 3rd current comparator SA3 output numerical coding D3 ... n-th current comparator SAn exports numerical coding Dn.The reference current value inputted due to the 1st current comparator SA1 to the n-th current comparator SAn is not identical, so, the numerical coding D1 to Dn exported may be different, and each numerical coding represents the comparative result of current value on bit line BL and a reference current value.

In comparing unit 1, n current comparator can arrange according to predefined procedure, and described predefined procedure is relevant to the reference current value of the described current comparator of input.Suppose, the current value of the 1st reference current IREF1 to the n-th reference current IREFn increases gradually, namely the current value of the 1st reference current IREF1 is minimum, the current value of the n-th reference current IREFn is maximum, then current comparator can sort according to the reference current value size of input, the current comparator SA1 inputting the 1st reference current IREF1 comes the 1st, the current comparator SA2 inputting the 2nd reference current IREF2 comes the 2nd, the current comparator SA3 inputting the 3rd reference current IREF3 comes the 3rd ... the current comparator SAn inputting the n-th reference current IREFn comes n-th.The current value of the 1st reference current IREF1 to the n-th reference current IREFn can be arithmetic progression.

Storer can comprise multiple bit line and with its comparing unit one to one.Such as, as shown in Figure 2, storer comprises 6 storage unit and 3 bit lines that arrange arrangement in 2 row 3.Wherein, storage unit 11 is connected the 1st bit lines BL1 with storage unit 21, and storage unit 12 is connected the 2nd bit lines BL2 with storage unit 22, and storage unit 13 is connected the 3rd bit lines BL3 with storage unit 23.Corresponding with this storer, the proving installation of described storer comprises: the 1st comparing unit 111 be connected with the 1st bit lines BL1, the 2nd comparing unit 211 be connected with the 2nd bit lines BL2 and the 1st comparing unit 311 be connected with the 3rd bit lines BL3.

1st comparing unit 111 comprises: the 1st current comparator SA11 and a 2nd current comparator SA21.1st current comparator SA11 is all connected the 1st bit lines BL1 with the first input end of the 2nd current comparator SA21, second end of the 1st current comparator SA11 is suitable for input the 1st reference current I11, second end of the 2nd current comparator SA21 is suitable for input the 2nd reference current I21, and the 1st reference current I11 is not identical with the current value of the 2nd reference current I21.1st current comparator SA11 exports numerical coding D11, and the 2nd current comparator SA21 exports numerical coding D21.

2nd comparing unit 211 comprises: the 3rd current comparator SA12 and a 4th current comparator SA22.3rd current comparator SA12 is all connected the 2nd bit lines BL2 with the first input end of the 4th current comparator SA22, second end of the 3rd current comparator SA12 is suitable for input the 3rd reference current I12, second end of the 4th current comparator SA22 is suitable for input the 4th reference current I22, and the 3rd reference current I12 is not identical with the current value of the 4th reference current I22.3rd current comparator SA12 exports numerical coding D12, and the 4th current comparator SA22 exports numerical coding D22.

3rd comparing unit 311 comprises: the 5th current comparator SA13 and a 6th current comparator SA23.5th current comparator SA13 is all connected the 3rd bit lines BL3 with the first input end of the 6th current comparator SA23, second end of the 5th current comparator SA13 is suitable for input the 5th reference current I13, second end of the 6th current comparator SA23 is suitable for input the 6th reference current I23, and the 5th reference current I13 is not identical with the current value of the 6th reference current I23.5th current comparator SA13 exports numerical coding D13, and the 6th current comparator SA23 exports numerical coding D23.

Described in when the proving installation of storer comprises at least two comparing units, the structure of at least two comparing units is identical, namely the current comparator quantity that comprises of each comparing unit is identical, the reference current that each comparing unit is suitable for inputting is identical, and the identical arrangement position of current comparator in each comparing unit of reference current value of input is identical.

Continue with reference to figure 2, 1st comparing unit 111 is suitable for input the 1st reference current I11 and the 2nd reference current I21, 2nd comparing unit 211 is suitable for the current value of input the 3rd reference current I12 and a 4th reference current I22, 3rd comparing unit 311 is suitable for input the 5th reference current I13 and the 6th reference current I23, wherein the 1st reference current I11, 3rd reference current I12 is identical with the current value of the 5th reference current I13, 2nd reference current I21, 4th reference current I22 is identical with the current value of the 6th reference current I23 and be all less than the 1st reference current I11.So, input the 1st comparing unit 111, the 2nd comparing unit 211 is identical with the reference current of the 3rd comparing unit 311.

The present embodiment will connect same bit line and the tie point of current comparator and bit line distance storage unit and the tie point of bit line nearest be considered as the 1st in comparing unit.In the 1st comparing unit 111, the tie point of the 1st current comparator SA11 and the 1st bit lines BL1 is nearest apart from the tie point of storage unit 21 and the 1st bit lines BL1, then the 1st current comparator SA11 is arranged in the 1st of the 1st comparing unit 111, and the 2nd current comparator SA21 is positioned at the 2nd.Because the 1st current comparator SA11 is suitable for input the 1st reference current I11, so, the 3rd the current comparator SA12 that the current value being suitable for inputting is identical with the 1st reference current I11 is also arranged in the 1st of the 2nd comparing unit 211, identical in this, the 5th current comparator SA13 is arranged in the 1st of the 3rd comparing unit 311; The 4th the current comparator SA22 that the current value being suitable for inputting is identical with the 2nd reference current I21 is arranged in the 2nd of the 2nd comparing unit 211, and the 6th current comparator SA23 is arranged in the 2nd of the 3rd comparing unit 311.

Each comparing unit can export set of number coding, and each group numerical coding can represent the current value on a bit lines.When a storage unit is activated, the current value on connected bit line can embody the size of current that the storage unit that is activated can provide.1st comparing unit 111 can export the numerical coding D11D21 that a group represents current value on the 1st bit lines BL1,2nd comparing unit 211 exports the numerical coding D12D22 that a group represents current value on the 2nd bit lines BL2, and the 3rd comparing unit 311 exports the numerical coding D13D23 that a group represents current value on the 3rd bit lines BL3.

The reference current difference that each comparing unit is suitable for reference current quantity and the input adjacent current comparer inputted determines measuring accuracy and scope.

If the current comparator quantity comprised in each comparing unit is more, the set of number coding figure place that comparing unit exports is more, then in order to reduce the coding figure place representing current value, the proving installation of described storer can also comprise scrambler, and scrambler and comparing unit connect one to one.As shown in Figure 3, the output terminal of the current comparator in comparing unit 1 connects the input end of described scrambler, and numerical coding Q [0:q] figure place that scrambler exports is less than the numerical coding figure place that comparing unit exports.

As shown in Figure 4, corresponding with the proving installation of above-mentioned storer, the present embodiment also provides a kind of method of testing of storer, comprising:

Step S1, activates the storage unit that need test, and connects different bit lines with the storage unit once activated;

Step S2, after storage unit is activated, the first numerical coding that the storage unit that acquisition is activated is corresponding, current value on the bit line that the storage unit be activated described in described first numerical coding characterizes connects and the comparative result of at least two reference current values, described at least two reference current values are not identical;

Step S3, measures current value on bit line that the storage unit corresponding from the first different numerical codings connect to obtain the corresponding relation of storage unit and current value.

The storage unit of the need test described in the present embodiment is the storage unit that brainchild carries out testing, such as, storer has 100 storage unit, these 100 storage unit are all the storage unit that need test, and part connects same bit line in 100 storage unit, repeatedly activate step so can only perform.The method activating storage unit is identical with the method that select storage unit carries out read operation or write operation, repeats no more herein.Below in conjunction with Fig. 2, the method for testing that the present embodiment provides is described further.

In step sl, should connect different bit lines with the storage unit be once activated, the storage unit namely connecting same bit line should not be activated simultaneously.Such as, storage unit 11, storage unit 12 and storage unit 13 can be activated with once activating in step, and storage unit 11 and storage unit 21 can only be activated in different activation steps.

Described step S2 can be performed by comparing unit 1.After storage unit 11 is activated, the 1st bit lines BL1 voltage be connected with storage unit 11 changes, and the current value on the 1st bit lines BL1 can embody the size of current that storage unit 11 can provide.Such as, before activating storage unit 11, the 1st bit lines BL1 is charged to noble potential; After storage unit 11 is activated, storage unit 11 can provide stable electric current to be undertaken drop-down by the electric current of the 1st bit lines BL1, until ground voltage 0V.

Performing step S3 is to obtain actual current value corresponding to the first different numerical codings, therefore, and the current value on the bit line needing storage unit corresponding to actual measurement and the first different numerical codings to connect.The metering system of bit line current can adopt existing bit line current measuring method.Such as, connection bit line is guided on the pad of memory chip, and pad is connected to foreign current testing apparatus.

Perform step S2 and can obtain the first numerical coding representing bit line current value, the current value of the first identical numerical coding representative is identical, and the current value of the first different numerical coding representatives is different.So, only in multiple storage unit that identical first numerical coding is corresponding, the storage unit of fair amount need be selected, measure the storage unit the selected actual current value upon activation on connected bit line.If in order to improve detection speed, can in multiple storage unit that identical first numerical coding is corresponding, a storage unit be only selected to measure.If obtain the accuracy of current value to improve, also can in multiple storage unit, select several storage unit to measure, and the average of getting these measurement results be as current value corresponding to this first numerical coding.It will be understood by those skilled in the art that choosing the quantity that storage unit carries out actual measurement is less than number of memory cells.

Measure the current value on the bit line of storage unit connection corresponding to the first numerical coding, after the first numerical coding that the storage unit all need be able to tested in acquisition is corresponding.Certainly, also can to activate in first time and after obtaining first numerical coding corresponding to storage unit of first time activation, or activate and obtain the first numerical coding corresponding to the storage unit of this activation once to activate with front and the first numerical coding corresponding to the storage unit once activated before obtaining is not identical time perform.

Such as, storage unit 11, storage unit 12, storage unit 13, storage unit 21, storage unit 22 and storage unit 23 are the storage unit that need test.Perform step S1 and S2, activate storage unit 11, storage unit 12 and storage unit 13 once activating in step, obtain corresponding first numerical coding 00 of storage unit 11, corresponding first numerical coding 01 of storage unit 12, corresponding first numerical coding 10 of storage unit 13.After obtaining the first numerical coding of storage unit 11, storage unit 12 and storage unit 13 correspondence, perform another time and activate step to activate storage unit 21, storage unit 22 and storage unit 23, obtain corresponding first numerical coding 11 of storage unit 21, corresponding first numerical coding 00 of storage unit 22, corresponding first numerical coding 01 of storage unit 23.

After performing step S1 and S2, the first numerical coding of acquisition comprises the first numerical coding 00, first numerical coding 01, first numerical coding 10 and the first numerical coding 11.Wherein, the first numerical coding 00 corresponding stored unit 11 and storage unit 22, first numerical coding 01 corresponding stored unit 12 and storage unit 23, first numerical coding 10 corresponding stored unit 13, first numerical coding 1 corresponding stored unit 21.

After obtaining the first numerical coding corresponding to the storage unit that all need test, again perform and once activate step to activate storage unit 11 and storage unit 13, the current value utilizing foreign current checkout equipment to measure the 1st bit lines BL1 for the current value of 10uA and the 3rd bit lines BL3 be 20uA.After terminating the activation of storage unit 11 and storage unit 13, activate in step in another time and activate storage unit 21 and storage unit 23, the current value utilizing foreign current checkout equipment to measure the 1st bit lines BL1 for the current value of 25uA and the 3rd bit lines BL3 be 15uA.So the storage unit obtained and the corresponding relation of current value are:

Storage unit 11 and storage unit 22 corresponding current value are 10uA;

Storage unit 12 and storage unit 23 corresponding current value are 15uA;

Storage unit 13 corresponding current value is 20uA;

Storage unit 21 corresponding current value is 25uA.

Mean value and the variance of the current value obtaining storage unit 11, storage unit 12, storage unit 13, storage unit 21, storage unit 22 and storage unit 23 correspondence can be calculated based on above-mentioned corresponding relation.Also number of memory cells corresponding to each current value can be obtained, corresponding 2 storage unit of current value of such as 10uA, corresponding 1 storage unit of current value of 20uA.The data obtained by corresponding relation can weigh a lot of technical indicator of storer, the manufacturing process deviation of storer.

Need if existing obtain current average corresponding to whole storage unit or add up current value corresponding to each storage unit, need to carry out activating for 6 times and the step of current measurement, and the present embodiment only need perform 4 primary current measuring processs, when needing the storage unit of test a lot, the advantage of the present embodiment is all the more obvious.

Step S3 also can activate in first time and after obtaining the first numerical coding, or activate and the first numerical coding obtained once to activate with front and the first numerical coding obtained is not identical time perform.Such as, perform and activate step for the first time, activate storage unit 11, storage unit 12 and storage unit 13, obtain corresponding first numerical coding 00 of storage unit 11, corresponding first numerical coding 01 of storage unit 12, corresponding first numerical coding 10 of storage unit 13.Because this activates as first time is activated, so perform measuring process, after namely obtaining the first coding, measure that the current value of the 1st bit lines BL1 is 10uA, the current value of the 2nd bit lines BL2 be current value on 15uA and the 3rd bit lines BL3 is 20uA.After measuring process performs, perform second time and activate step, activate storage unit 21, storage unit 22 and storage unit 23, obtain corresponding first numerical coding 11 of storage unit 21, corresponding first numerical coding 00 of storage unit 22, corresponding first numerical coding 01 of storage unit 23.Only have the first numerical coding 11 owing to activating in step the first numerical coding obtained in second time and to activate for the first time and to obtain the first numerical coding not identical, so, only measure the current value on the 1st bit lines that storage unit 21 corresponding to this first different numerical coding connect, described in the current value that measures be 25uA.Like this, current value corresponding to the first all different numerical codings can also be obtained.

If the first numerical coding figure place is more, also again can encode to obtain the second numerical coding to the first numerical coding, described second numerical coding figure place is less than the first numerical coding.

Although the present invention discloses as above, the present invention is not defined in this.Any those skilled in the art, without departing from the spirit and scope of the present invention, all can make various changes or modifications, and therefore protection scope of the present invention should be as the criterion with claim limited range.

Claims (10)

1. the proving installation of a storer, the bit line that described storer comprises storage unit and is connected with described storage unit, it is characterized in that, the proving installation of described storer comprises: comparing unit, described comparing unit and bit line connect one to one, described comparing unit comprises at least two current comparators, the first input end of described current comparator connects bit line, second input end of described current comparator is suitable for input reference electric current, and the reference current value being arranged in the second input end input of the current comparator of same comparing unit is not identical.

2. the proving installation of storer as claimed in claim 1, it is characterized in that, described current comparator is electric current induction amplifier.

3. the proving installation of storer as claimed in claim 1, it is characterized in that, also comprise: scrambler, described scrambler and described comparing unit connect one to one, and the output terminal of the current comparator in described comparing unit connects the input end of described scrambler.

4. the proving installation of storer as claimed in claim 1, it is characterized in that, the quantity of described comparing unit is at least two, and the structure of described at least two comparing units is identical.

5. a method of testing for storer, the bit line that described storer comprises storage unit and is connected with described storage unit, it is characterized in that, the method for testing of described storer comprises:

The storage unit that activation need be tested, connects different bit lines with the storage unit once activated;

After storage unit is activated, the first numerical coding that the storage unit that acquisition is activated is corresponding, current value on the bit line that the storage unit be activated described in described first numerical coding characterizes connects and the comparative result of at least two reference current values, described at least two reference current values are not identical;

Measure current value on bit line that the storage unit corresponding from the first different numerical codings connect to obtain the corresponding relation of storage unit and current value.

6. the method for testing of storer as claimed in claim 5, it is characterized in that, also comprise: the first numerical coding is converted to the second numerical coding, described second digitally coded figure place is less than the first numerical coding.

7. the method for testing of storer as claimed in claim 5, is characterized in that, also comprise: the corresponding relation based on described storage unit and current value calculates mean value and the variance of current value corresponding to the storage unit that all need test.

8. the method for testing of storer as claimed in claim 5, is characterized in that, also comprise: the corresponding relation based on described storage unit and current value obtains the number of memory cells of need test corresponding to different current value.

9. the method for testing of storer as claimed in claim 5, it is characterized in that, after obtaining the first numerical coding corresponding to the storage unit that all need test, perform current value on bit line that the described measurement storage unit corresponding from the first different numerical codings connect to obtain the step of the corresponding relation of storage unit and current value.

10. the method for testing of storer as claimed in claim 5, it is characterized in that, the described storage unit that need test activates several times, after first time is activated and obtains the first numerical coding, or activate and the first numerical coding obtained once to activate with front and the first numerical coding obtained is not identical time, perform current value on bit line that the described measurement storage unit corresponding from the first different numerical codings connect to obtain the corresponding relation of storage unit and current value.