CN114374621B - Remote transmission method and device for microelectronic circuit packaging test result - Google Patents

Abstract

The application discloses a remote transmission method and a device for a microelectronic circuit packaging test result, wherein the method comprises the following steps: collecting a microelectronic circuit package test result by a first package test device and a second package test device with wireless transmission function; calculating, by the first package testing device, a first data size of the microelectronic circuit package test results collected by the first package testing device; calculating, by the second package testing device, a second data size of the microelectronic circuit package test results collected by the second package testing device; after determining the first data size, transmitting, by the first encapsulation testing device, an amount of first transmission resources required for the data of the first data size; after receiving the first resource activation message, transmitting, by the first package testing device, first data to the package test result receiving device; after receiving the second resource activation message, the second data is sent by the second encapsulation testing device to the encapsulation test result receiving device.

Description

Remote transmission method and device for microelectronic circuit packaging test result

Technical Field

The present application relates to the field of microelectronic inspection technology, and more particularly, to a method and apparatus for remotely transmitting test results of microelectronic circuit packages.

Background

Microelectronic circuit package testing is currently being fused with internet of things technology and cloud computing technology. For example, prior art CN106210013B discloses a cloud-based integrated circuit test information integration analysis system and method, the method comprising: establishing a virtualized physical service cluster; collecting test data in real time by utilizing each test data collection and online effector, processing the test data collected by the test data collection and online effector according to the requirements of clients by utilizing a monitoring client, including verification data, functional performance test data, test conditions, test environment information and other complete set of chip test related information, and sending the complete set of chip test related information to a cloud server; integrating the test data in a cloud server, and deploying based on cloud distributed data; and integrating and analyzing the integrated test data by adopting a mass data mining and analyzing technology and a plurality of process verification and analysis methods.

How to efficiently transmit test results to a server in a local environment is a problem that the current prior art cannot solve.

Disclosure of Invention

The application aims to provide a remote transmission method and a remote transmission device for a microelectronic circuit package test result.

In order to achieve the above object, the present application provides a method for remotely transmitting a test result of a microelectronic circuit package, comprising the steps of: collecting a microelectronic circuit package test result by a first package test device and a second package test device with wireless transmission function; calculating, by the first package testing device, a first data size of the microelectronic circuit package test results collected by the first package testing device; calculating, by the second package testing device, a second data size of the microelectronic circuit package test results collected by the second package testing device; after determining the first data size, determining, by the first encapsulation testing device, an amount of first transmission resources required for transmitting the data of the first data size; after determining the second data size, determining, by the second encapsulation testing device, an amount of second transmission resources required for transmitting the data of the second data size; after determining the number of first transmission resources, transmitting, by the first encapsulation testing device, an indication of the number of first transmission resources to the encapsulation test result receiving device on the shared resources; after determining the number of second transmission resources, transmitting, by the second encapsulation testing device, an indication of the number of second transmission resources to the encapsulation test result receiving device on the shared resources; after receiving the indication of the number of the first transmission resources and the indication of the number of the second transmission resources, sending, by the encapsulation test result receiving means, a first resource activation message to the first encapsulation test means and a second resource activation message to the second encapsulation test means, wherein the first resource activation message is used for activating one or more resource sets in the transmission resource pool, and the second resource activation message is used for activating one or more resource sets in the transmission resource pool; after receiving the first resource activation message, transmitting, by the first package testing device, first data to the package test result receiving device; after receiving the second resource activation message, the second data is sent by the second encapsulation testing device to the encapsulation test result receiving device.

In a preferred embodiment, the sending, by the first package testing device, an indication of the number of first transmission resources to the package test result receiving device on the shared resources comprises in particular the steps of: if the first data size is in the first numerical range, transmitting, by the first package testing device, one bit to the package test result receiving device at a first resource location in the shared resource; transmitting, by the first package testing device, one bit to the package test result receiving device at a first resource location in the shared resource and one bit to the package test result receiving device at a second resource location in the shared resource if the first data size is in a second range of values, wherein a lower limit of the second range of values is greater than an upper limit of the first range of values; if the first data size is in a third range of values, one bit is sent by the first package testing device to the package test result receiving device at a first resource location in the shared resource and one bit is sent to the package test result receiving device at a second resource location in the shared resource and one bit is sent to the package test result receiving device at a third resource location in the shared resource, wherein a lower limit of the third range of values is greater than an upper limit of the second range of values.

In a preferred embodiment, the sending, by the second package testing device, an indication of the number of second transmission resources to the package test result receiving device on the shared resources specifically comprises the steps of: if the second data size is within the first range of values, transmitting, by the second package testing device, one bit to the package test result receiving device at a first resource location in the shared resource; transmitting, by the second package testing device, one bit to the package test result receiving device at a first resource location in the shared resource and one bit to the package test result receiving device at a second resource location in the shared resource if the second data size is in a second range of values, wherein a lower limit of the second range of values is greater than an upper limit of the first range of values; if the second data size is in a third range of values, one bit is sent by the second package testing device to the package test result receiving device at a first resource location in the shared resource and one bit is sent to the package test result receiving device at a second resource location in the shared resource and one bit is sent to the package test result receiving device at a third resource location in the shared resource, wherein a lower limit of the third range of values is greater than an upper limit of the second range of values.

In a preferred embodiment, the transmission resource pool is preconfigured to the first package testing device and the second package testing device by the package test result receiving device, wherein each resource set in the transmission resource pool has a predetermined number, wherein the predetermined number is a continuous decimal number or binary number, and wherein the position of each resource set in the transmission resource pool is preconfigured to the first package testing device and the second package testing device by the package test result receiving device; the method for sending the first resource activation message to the first package testing device by the package testing result receiving device specifically comprises the following steps: if the encapsulation test result receiving means receives information only at a first resource location in the shared resources and the encapsulation test result receiving means does not receive information at a second resource location and a third resource location in the shared resources, selecting, by the encapsulation test result receiving means, a first set of resources in the pool of transmission resources and selecting, by the encapsulation test result receiving means, a second set of resources in the pool of transmission resources, wherein the first set of resources has a first number of resources and the second set of resources has a first number of resources; after selecting the first resource set in the transmission resource pool, the encapsulation test result receiving device sends a first resource activation message to the first encapsulation test device, wherein the first resource activation message comprises a predetermined number of the first resource set.

In a preferred embodiment, the transmission resource pool is preconfigured to the first package testing device and the second package testing device by the package test result receiving device, wherein each resource set in the transmission resource pool has a predetermined number, and the position of each resource set in the transmission resource pool is preconfigured to the first package testing device and the second package testing device by the package test result receiving device; the method for sending the second resource activation message to the second package testing device by the package testing result receiving device specifically comprises the following steps: if the encapsulation test result receiving means receives information only at a first resource location in the shared resources and the encapsulation test result receiving means does not receive information at a second resource location and a third resource location in the shared resources, selecting, by the encapsulation test result receiving means, a first set of resources in the pool of transmission resources and selecting, by the encapsulation test result receiving means, a second set of resources in the pool of transmission resources, wherein the first set of resources has a first number of resources and the second set of resources has a first number of resources; after selecting the second resource set in the transmission resource pool, sending, by the encapsulation test result receiving device, a second resource activation message to the second encapsulation test device, wherein the second resource activation message includes a predetermined number of the second resource set.

In a preferred embodiment, the sending, by the package test result receiving device, the first resource activation message to the first package test device specifically includes the steps of: if the package test result receiving means receives information at a first resource location in the shared resources and the package test result receiving means receives information at a second resource location in the shared resources and the package test result receiving means does not receive information at a third resource location, selecting, by the package test result receiving means, a first set of resources, a second set of resources, a third set of resources, and a fourth set of resources in the transmission resource pool, wherein each of the first set of resources, the second set of resources, the third set of resources, and the fourth set of resources has a first number of resources; after the first resource set, the second resource set, the third resource set and the fourth resource set in the transmission resource pool are selected, the encapsulation test result receiving device sends a first resource activation message to the first encapsulation test device, wherein the first resource activation message comprises preset numbers of the first resource set and the second resource set.

In a preferred embodiment, the sending, by the package test result receiving device, the second resource activation message to the second package test device specifically includes the steps of: if the package test result receiving means receives information at a first resource location in the shared resources and the package test result receiving means receives information at a second resource location in the shared resources and the package test result receiving means does not receive information at a third resource location, selecting, by the package test result receiving means, a first set of resources, a second set of resources, a third set of resources, and a fourth set of resources in the transmission resource pool, wherein each of the first set of resources, the second set of resources, the third set of resources, and the fourth set of resources has a first number of resources; after the first resource set, the second resource set, the third resource set and the fourth resource set in the transmission resource pool are selected, the encapsulation test result receiving device sends a second resource activation message to the second encapsulation test device, wherein the second resource activation message comprises preset numbers of the third resource set and the fourth resource set.

In a preferred embodiment, the sending, by the package test result receiving device, the first resource activation message to the first package test device specifically includes the steps of: if the encapsulation test result reception means receives information at a first resource location in the shared resources and the encapsulation test result reception means receives information at a second resource location in the shared resources and the encapsulation test result reception means receives information at a third resource location in the shared resources, selecting, by the encapsulation test result reception means, a first set of resources, a second set of resources, a third set of resources, a fourth set of resources, a fifth set of resources, and a sixth set of resources in the transmission resource pool, wherein each of the first set of resources, the second set of resources, the third set of resources, the fourth set of resources, the fifth set of resources, and the sixth set of resources has a first number of resources; after the first resource set, the second resource set, the third resource set, the fourth resource set, the fifth resource set and the sixth resource set in the transmission resource pool are selected, the encapsulation test result receiving device sends a first resource activation message to the first encapsulation test device, wherein the first resource activation message comprises preset numbers of the first resource set, the second resource set and the third resource set.

In a preferred embodiment, the sending, by the package test result receiving device, the second resource activation message to the second package test device specifically includes the steps of: if the encapsulation test result reception means receives information at a first resource location in the shared resources and the encapsulation test result reception means receives information at a second resource location in the shared resources and the encapsulation test result reception means receives information at a third resource location in the shared resources, selecting, by the encapsulation test result reception means, a first set of resources, a second set of resources, a third set of resources, a fourth set of resources, a fifth set of resources, and a sixth set of resources in the transmission resource pool, wherein each of the first set of resources, the second set of resources, the third set of resources, the fourth set of resources, the fifth set of resources, and the sixth set of resources has a first number of resources; after the first resource set, the second resource set, the third resource set, the fourth resource set, the fifth resource set and the sixth resource set in the transmission resource pool are selected, the second resource activation message is sent to the second encapsulation testing device by the encapsulation testing result receiving device, wherein the second resource activation message comprises preset numbers of the fourth resource set, the fifth resource set and the sixth resource set.

The application also provides a remote transmission device of microelectronic circuit package test results, which is configured to perform the method as described above.

Compared with the prior art, the application has the following advantages: the circuit package test result has the characteristics of uniform format and uniform content, for example, the alternating current and direct current characteristics of a plurality of integrated devices are standardized, the alternating current and direct current characteristics of the devices need to be marked in any product specification, and the same parameters need to be tested in a large amount during the factory test of the products. Under the situation, how to reduce the data transmission cost and improve the transmission effect is an improvement direction to be considered, and based on the requirements of the prior art, the application provides a remote transmission method and a remote transmission device for a microelectronic circuit package test result, which can realize efficient transmission of the test result to a server in a local environment, thereby improving the transmission effect while reducing the data transmission cost.

Drawings

FIG. 1 is a flow chart of a method according to an embodiment of the application.

Fig. 2 is a schematic diagram of a structure of a shared resource according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a resource structure of a transmission resource pool according to an embodiment of the present application.

Detailed Description

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the application, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present application, should fall within the ambit of the technical disclosure.

FIG. 1 is a flow chart of a method according to an embodiment of the application. The remote transmission method of the microelectronic circuit packaging test result comprises the following steps:

collecting a microelectronic circuit package test result by a first package test device and a second package test device with wireless transmission function; in one embodiment, the first package testing device with wireless transmission function may be a terminal similar to a mobile phone with function;

calculating, by the first package testing device, a first data size of the microelectronic circuit package test results collected by the first package testing device; in one embodiment, the data size is represented by the number of bits of data;

calculating, by the second package testing device, a second data size of the microelectronic circuit package test results collected by the second package testing device;

after determining the first data size, determining, by the first encapsulation testing device, an amount of first transmission resources required for transmitting the data of the first data size;

after determining the second data size, determining, by the second encapsulation testing device, an amount of second transmission resources required for transmitting the data of the second data size;

after determining the number of first transmission resources, transmitting, by the first encapsulation testing device, an indication of the number of first transmission resources to the encapsulation test result receiving device on the shared resources; in a specific embodiment, the shared resource is pre-allocated by the encapsulation test result receiving device, and a plurality of resource blocks for transmitting data bits are arranged in the shared resource, each resource block has a plurality of units of frequency resources and a plurality of units of time resources, in a specific embodiment, if the system is operated in an OFDM system, each resource block has a plurality of subcarriers and a plurality of OFDM symbols;

after determining the number of second transmission resources, transmitting, by the second encapsulation testing device, an indication of the number of second transmission resources to the encapsulation test result receiving device on the shared resources; it will be appreciated by those skilled in the art that the shared resources allocated by the package test result receiving means to each package test means are the same resources;

after receiving the indication of the number of the first transmission resources and the indication of the number of the second transmission resources, sending, by the encapsulation test result receiving means, a first resource activation message to the first encapsulation test means and a second resource activation message to the second encapsulation test means, wherein the first resource activation message is used for activating one or more resource sets in the transmission resource pool, and the second resource activation message is used for activating one or more resource sets in the transmission resource pool;

after receiving the first resource activation message, transmitting, by the first package testing device, first data to the package test result receiving device;

after receiving the second resource activation message, the second data is sent by the second encapsulation testing device to the encapsulation test result receiving device. After the test result receiving device receives the test result, the test result may be sent to the server.

In one embodiment, if the first data size is in the first range of values, transmitting, by the first package testing device, one bit to the package test result receiving device at a first resource location in the shared resource; in one embodiment, a first resource location in the shared resource is preconfigured by the package test result receiving device, the first resource location in the shared resource being dedicated to transmitting data bits by the package test device when the first data size is within the first range of values; in one embodiment, one bit should be bit 1, while bit 0 indicates no transmission; in this embodiment, the first package testing device transmits one bit to the package test result receiving device only at the first resource location in the shared resource.

In one embodiment, if the first data size is in a second range of values, one bit is sent by the first package testing device to the package test result receiving device at a first resource location in the shared resource and one bit is sent by the first package testing device to the package test result receiving device at a second resource location in the shared resource, wherein a lower limit of the second range of values is greater than an upper limit of the first range of values. In one embodiment, the first resource location and the second resource location in the shared resource are preconfigured by the package test result receiving device, the first resource location in the shared resource being dedicated to transmitting data bits by the package test device when the first data size is in the second range of values; in one embodiment, the bits transmitted at the first resource location and at the second resource location in the shared resource are both bit 1, while bit 0 indicates no transmission; in this embodiment, the first package test apparatus transmits one bit to the package test result receiving apparatus only at the first resource location and the second resource location in the shared resource.

In one embodiment, if the first data size is in a third range of values, one bit is sent by the first package testing device to the package test result receiving device at a first resource location in the shared resource and one bit is sent to the package test result receiving device at a second resource location in the shared resource and one bit is sent to the package test result receiving device at a third resource location in the shared resource, wherein a lower limit of the third range of values is greater than an upper limit of the second range of values.

In an embodiment, the second package testing device and the first package testing device have completely corresponding operation processes, which are not described herein. It should be noted that the shared resource used by the second package testing device is identical to the shared resource used by the first package testing device, and the configuration mode is identical. In one embodiment, if the first data size is in the first range of values and the second data size is in the second range of values, the first package test means sends bit 1 to the package test result receiving means at a first resource location in the shared resource, the second package test means sends bit 1 to the package test result receiving means at a second resource location in the shared resource, the package test result receiving means will receive two overlapping bits 1 at the first resource location in the shared resource, and one bit 1 will be received at the second resource location in the shared resource.

In one embodiment, the transmission resource pool is preconfigured to the first encapsulation testing device and the second encapsulation testing device by the encapsulation testing result receiving device, in one embodiment, the transmission resource pool is provided with a plurality of resource sets, each resource set is provided with a plurality of units of frequency resources and a plurality of units of time resources, in one specific embodiment, if the system is operated in an OFDM system, each resource block is provided with a plurality of subcarriers and a plurality of OFDM symbols; the position of each resource set in the transmission resource pool is preconfigured to the first packaging test device and the second packaging test device by the packaging test result receiving device; the configuration of the transmission resource pool may be configured by means of a mapping table, an example of which is as follows, wherein it should be well known to a person skilled in the art of wireless transmission that a transmission has minimum time units in the time domain, each minimum time unit having a respective index value, starting from 0, where the time position k represents the time at which the index value is k, and the frequency position l in the frequency domain has a similar meaning:

in one embodiment, if the package test result receiving device receives information only at a first resource location in the shared resource and the package test result receiving device does not receive information at a second resource location and a third resource location in the shared resource, then it is indicated that the data sizes of all of the package test devices are in the first range of values. In this embodiment, since the data sizes of all the package test apparatuses are in the first numerical range, the package test result receiving apparatus only needs to allocate one resource set to each package test apparatus. In this embodiment, the package test result receiving device may send a first resource activation message to the first package test device, where a specific time-frequency location of the first resource set need not be indicated in the first activation message, in this embodiment, the first activation message may include a sequence, where if the transmission resource pool has 8 resource sets, the sequence may be "10000000" indicating that the package test result receiving device activates the first resource set for the first package test device; in this embodiment, since the first bit of the sequence is 1, the first bit corresponds to the predetermined number 1 (and by analogy, the second bit in the sequence corresponds to the predetermined number 2 and the third bit in the sequence corresponds to the predetermined number 3), the first activation message now comprises the predetermined number of the first set of resources. In this embodiment, the sending of the second resource activation message by the package test result receiving device to the second package test device may be that the second resource activation message includes a sequence, wherein if the transmission resource pool has 8 resource sets, the sequence may be "01000000", indicating that the package test result receiving device activates the second resource set for the second package test device. In the field of package testing, the performance form of the device package testing result is single, for example, the testing contents of the electrical characteristics of tens of thousands of integrated devices can be completely consistent, so that the sizes of data received by a plurality of testing devices can be completely consistent.

In one embodiment, if the package test result receiving means receives information at a first one of the shared resources and the package test result receiving means receives information at a second one of the shared resources and the package test result receiving means does not receive information at a third one of the resource locations, in one embodiment, if two package test means send bit 1 to the package test result receiving means at the first one of the shared resources, the strength of bit 1 received by the package test result receiving means at the first one of the shared resources may be greater (due to the superposition of the two signals), and if three package test means send bit 1 to the package test result receiving means at the first one of the shared resources, the strength of bit 1 received by the package test result receiving means at the first one of the shared resources may be greater (due to the superposition of the three signals); regardless of the strength, as long as information is received at the first resource location and at the second resource location, the encapsulation test result receiving means selects a first set of resources, a second set of resources, a third set of resources, and a fourth set of resources in the transmission resource pool;

after selecting the first set of resources, the second set of resources, the third set of resources and the fourth set of resources in the transmission resource pool, a first resource activation message is sent by the encapsulation test result receiving means to the first encapsulation test means, wherein the first resource activation message comprises a predetermined number of the first set of resources and the second set of resources, and in one embodiment the first resource activation message comprises a sequence, wherein the sequence may be "11000000" if the transmission resource pool has 8 sets of resources.

Fig. 2 is a schematic diagram of a structure of a shared resource according to an embodiment of the present application. In fig. 2, time is represented horizontally and frequency is represented vertically, wherein a block 201 at a first resource location represents a block of time-frequency resources, wherein a block 202 represents a block of time-frequency resources, a block 203 represents a block of time-frequency resources, a block 204 represents a block of time-frequency resources, a block 205 represents a block of time-frequency resources, and a block 206 represents a block of time-frequency resources.

Fig. 3 is a schematic diagram of a resource structure of a transmission resource pool according to an embodiment of the present application. In fig. 3, time is indicated horizontally and frequency is indicated vertically. For example, the first resource set in fig. 3 includes a first resource grid 301, a second resource grid 302, a third resource grid 303, a fourth resource grid 304, a fifth resource grid 305, a sixth resource grid 306, a seventh resource grid 307, and an eighth resource grid 308, where each resource grid has a certain time length and has a certain bandwidth, in other words, each resource grid represents a block of time-frequency resources, so that the first resource set includes eight resource grids. Likewise, the second set of resources includes eight resource bins, the third set of resources includes eight resource bins, the fourth set of resources includes eight resource bins, the fifth set of resources includes eight resource bins, and the sixth set of resources includes eight resource bins.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, as relevant to see a section of the description of method embodiments.

The foregoing is merely illustrative of the present application and is not to be construed as limiting thereof. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the application are to be included in the scope of the claims of the present application.

Claims (6)

1. A remote transmission method for microelectronic circuit package test results is characterized in that,

the method comprises the following steps:

collecting a microelectronic circuit package test result by a first package test device and a second package test device with wireless transmission function;

calculating, by the first package testing device, a first data size of the microelectronic circuit package test results collected by the first package testing device;

calculating, by the second package testing device, a second data size of the microelectronic circuit package test results collected by the second package testing device;

after determining the first data size, determining, by a first encapsulation testing device, an amount of first transmission resources required for transmitting the data of the first data size;

after determining the second data size, determining, by a second encapsulation testing device, an amount of second transmission resources required for transmitting the data of the second data size;

after determining the number of the first transmission resources, sending, by the first encapsulation testing device, an indication of the number of the first transmission resources to the encapsulation test result receiving device on the shared resources;

after determining the number of second transmission resources, sending, by a second encapsulation testing device, an indication of the number of second transmission resources to an encapsulation test result receiving device on the shared resources;

after receiving the indication of the number of the first transmission resources and the indication of the number of the second transmission resources, sending, by a package test result receiving device, a first resource activation message to the first package test device and a second resource activation message to the second package test device, wherein the first resource activation message is used for activating one or more resource sets in a transmission resource pool, and the second resource activation message is used for activating one or more resource sets in the transmission resource pool;

after receiving the first resource activation message, transmitting, by a first package testing device, the first data to the package test result receiving device;

after receiving the second resource activation message, transmitting the second data by a second package testing device to the package test result receiving device,

the method for transmitting, by the first package testing device, an indication of the number of the first transmission resources to the package test result receiving device on the shared resources comprises the steps of:

if the first data size is in the first numerical range, transmitting, by the first package testing device, one bit to the package test result receiving device at a first resource location in the shared resource;

transmitting, by the first package testing device, one bit to the package test result receiving device at a first resource location in the shared resource and one bit to the package test result receiving device at a second resource location in the shared resource if the first data size is in a second range of values, wherein a lower limit of the second range of values is greater than an upper limit of the first range of values;

transmitting, by the first encapsulation testing device, one bit to the encapsulation testing result receiving device at a first resource location in the shared resource and one bit to the encapsulation testing result receiving device at a second resource location in the shared resource and one bit to the encapsulation testing result receiving device at a third resource location in the shared resource, wherein a lower limit of the third numerical range is greater than an upper limit of the second numerical range, transmitting, by the second encapsulation testing device, an indication of the number of the second transmission resources to the encapsulation testing result receiving device on the shared resource, comprising, in particular:

if the second data size is in the first numerical range, transmitting, by the second package testing device, one bit to the package test result receiving device at a first resource location in the shared resource;

transmitting, by a second package testing device, one bit to the package test result receiving device at a first resource location in the shared resource and one bit to the package test result receiving device at a second resource location in the shared resource if the second data size is in a second range of values, wherein a lower limit of the second range of values is greater than an upper limit of the first range of values;

transmitting, by a second package testing device, one bit to a package test result receiving device at a first resource location in a shared resource and one bit to the package test result receiving device at a second resource location in the shared resource and one bit to the package test result receiving device at a third resource location in the shared resource, wherein a lower limit of the third numerical range is greater than an upper limit of the second numerical range, the transmission resource pool being preconfigured by the package test result receiving device to the first package testing device and the second package testing device, wherein each resource set in the transmission resource pool has a predetermined number, wherein the predetermined number is a consecutive decimal number or a binary number, wherein a location of each resource set in the transmission resource pool is preconfigured by the package test result receiving device to the first package testing device and the second package testing device;

the method for sending the first resource activation message to the first packaging test device by the packaging test result receiving device specifically comprises the following steps:

if the encapsulation test result receiving means receives information only at a first resource location in the shared resources and the encapsulation test result receiving means does not receive information at a second resource location and a third resource location in the shared resources, selecting, by the encapsulation test result receiving means, a first set of resources in the pool of transmission resources and selecting, by the encapsulation test result receiving means, a second set of resources in the pool of transmission resources, wherein the first set of resources has a first number of resources and the second set of resources has a first number of resources;

after selecting a first set of resources in the pool of transmission resources, sending, by a package test result receiving device, a first resource activation message to the first package test device, wherein the first resource activation message includes a predetermined number of the first set of resources,

the transmission resource pool is preconfigured to the first packaging test device and the second packaging test device by the packaging test result receiving device, wherein each resource set in the transmission resource pool is provided with a preset number, and the position of each resource set in the transmission resource pool is preconfigured to the first packaging test device and the second packaging test device by the packaging test result receiving device;

the method for sending the second resource activation message to the second package testing device by the package testing result receiving device specifically comprises the following steps:

if the encapsulation test result receiving means receives information only at a first resource location in the shared resources and the encapsulation test result receiving means does not receive information at a second resource location and a third resource location in the shared resources, selecting, by the encapsulation test result receiving means, a first set of resources in the pool of transmission resources and selecting, by the encapsulation test result receiving means, a second set of resources in the pool of transmission resources, wherein the first set of resources has a first number of resources and the second set of resources has a first number of resources;

after selecting a second set of resources in the pool of transmission resources, sending, by a package test result receiving device, a second resource activation message to the second package test device, wherein the second resource activation message includes a predetermined number of the second set of resources,

wherein the first resource activation message does not need to indicate a specific time-frequency position of a first resource set, the first resource activation message comprises a first sequence, wherein in case that the transmission resource pool has 8 resource sets, the first sequence is 10000000, the first sequence 10000000 indicates that the encapsulation test result receiving device activates the first resource set for the first encapsulation test device,

wherein, the specific time frequency position of the second resource set is not required to be indicated in the second resource activation message, and the second resource activation message includes a second sequence, where in the case that the transmission resource pool has 8 resource sets, the second sequence is 01000000, and the second sequence 01000000 indicates that the encapsulation test result receiving device activates the second resource set for the second encapsulation test device.

2. The method for remotely transmitting test results of a microelectronic circuit package according to claim 1, wherein,

the method for sending the first resource activation message to the first encapsulation testing device by the encapsulation testing result receiving device specifically comprises the following steps:

if the encapsulation test result receiving means receives information at a first resource location in the shared resources and the encapsulation test result receiving means receives information at a second resource location in the shared resources and the encapsulation test result receiving means does not receive information at a third resource location, selecting, by the encapsulation test result receiving means, a first set of resources, a second set of resources, a third set of resources, and a fourth set of resources in the pool of transmission resources, wherein each of the first set of resources, the second set of resources, the third set of resources, and the fourth set of resources has a first number of resources; after the first resource set, the second resource set, the third resource set and the fourth resource set in the transmission resource pool are selected, a first resource activation message is sent to the first encapsulation testing device by the encapsulation testing result receiving device, wherein the first resource activation message comprises preset numbers of the first resource set and the second resource set.

3. The method for remotely transmitting test results of a microelectronic circuit package according to claim 2, wherein,

the sending, by the package test result receiving device, the second resource activation message to the second package test device specifically includes the following steps:

if the encapsulation test result receiving means receives information at a first resource location in the shared resources and the encapsulation test result receiving means receives information at a second resource location in the shared resources and the encapsulation test result receiving means does not receive information at a third resource location, selecting, by the encapsulation test result receiving means, a first set of resources, a second set of resources, a third set of resources, and a fourth set of resources in the pool of transmission resources, wherein each of the first set of resources, the second set of resources, the third set of resources, and the fourth set of resources has a first number of resources; after the first resource set, the second resource set, the third resource set and the fourth resource set in the transmission resource pool are selected, a second resource activation message is sent to the second encapsulation testing device by the encapsulation testing result receiving device, wherein the second resource activation message comprises preset numbers of the third resource set and the fourth resource set.

4. The method for remotely transmitting test results of a microelectronic circuit package according to claim 3, wherein,

the method for sending the first resource activation message to the first encapsulation testing device by the encapsulation testing result receiving device specifically comprises the following steps:

if the encapsulation test result receiving means receives information at a first resource location in the shared resources and the encapsulation test result receiving means receives information at a second resource location in the shared resources and the encapsulation test result receiving means receives information at a third resource location in the shared resources, selecting, by the encapsulation test result receiving means, a first set of resources, a second set of resources, a third set of resources, a fourth set of resources, a fifth set of resources, and a sixth set of resources in the pool of transmission resources, wherein each of the first set of resources, the second set of resources, the third set of resources, the fourth set of resources, the fifth set of resources, and the sixth set of resources has a first number of resources;

after the first resource set, the second resource set, the third resource set, the fourth resource set, the fifth resource set and the sixth resource set in the transmission resource pool are selected, a first resource activation message is sent to the first encapsulation testing device by the encapsulation testing result receiving device, wherein the first resource activation message comprises preset numbers of the first resource set, the second resource set and the third resource set.

5. The method for remotely transmitting test results of a microelectronic circuit package according to claim 4, wherein,

the sending, by the package test result receiving device, the second resource activation message to the second package test device specifically includes the following steps:

if the encapsulation test result receiving means receives information at a first resource location in the shared resources and the encapsulation test result receiving means receives information at a second resource location in the shared resources and the encapsulation test result receiving means receives information at a third resource location in the shared resources, selecting, by the encapsulation test result receiving means, a first set of resources, a second set of resources, a third set of resources, a fourth set of resources, a fifth set of resources, and a sixth set of resources in the pool of transmission resources, wherein each of the first set of resources, the second set of resources, the third set of resources, the fourth set of resources, the fifth set of resources, and the sixth set of resources has a first number of resources;

after the first resource set, the second resource set, the third resource set, the fourth resource set, the fifth resource set and the sixth resource set in the transmission resource pool are selected, a second resource activation message is sent to the second encapsulation testing device by the encapsulation testing result receiving device, wherein the second resource activation message comprises preset numbers of the fourth resource set, the fifth resource set and the sixth resource set.

6. A remote transmission device for microelectronic circuit package test results is characterized in that,

the remote transmission device of microelectronic circuit package test results configured to perform the method of one of claims 1-5.