CN115857806A - Integrated circuit system of multifunctional memory and control method thereof - Google Patents

Abstract

The invention provides an integrated circuit system of a multifunctional memory and a control method thereof. The integrated circuit system comprises a plurality of memories and a memory controller; the storage control signal output end of the storage controller is connected with the storage signal input ends of the plurality of storages; the data storage signal input end of the storage controller is connected with the data information output end of the external data generation equipment or platform for data transmission. The control method comprises the steps that a storage controller screens out a part of memories from a plurality of memories to carry out initial operation; according to the data volume corresponding to the data to be stored in a single time, selecting and storing in a memory which operates initially; the memory controller sets the number of memory amplification starts and the standard memory value of the memory amplification starts according to the memory data amount acquired from the external data generation device or platform in a unit time period and the total memory surplus corresponding to the initially operated memory.

Description

Integrated circuit system of multifunctional memory and control method thereof

Technical Field

The invention provides an integrated circuit system of a multifunctional memory and a control method thereof, belonging to the technical field of integrated circuits.

Background

With the continuous development of software technology, various large platform systems are gradually applied to various industries, and all large service platforms are provided with memories for data storage. However, the memory has only a memory function, and cannot perform the amplification adjustment of the memory according to the change of the amount of stored data.

Disclosure of Invention

The invention provides an integrated circuit system of a multifunctional memory and a control method thereof, which are used for solving the problem that the existing memory only has a storage function and cannot perform amplification adjustment on the memory according to the change condition of the stored data quantity, and adopt the following technical scheme:

an integrated circuit system of a multifunction memory, the integrated circuit system comprising a plurality of memories and a memory controller; the storage control signal output end of the storage controller is connected with the storage signal input ends of the plurality of storages; and the data storage signal input end of the storage controller is connected with the data information output end of external data generation equipment or platform for data transmission.

Further, the storage controller includes:

the screening module is used for controlling the storage controller to screen out part of memories from the plurality of memories for initial operation;

the storage control module is used for controlling the storage controller to selectively store the data to be stored, which is received in a unit time period and sent by the external data generation equipment or the platform, in the initially-operated memory according to the data volume corresponding to the data to be stored in a single time; wherein, the selection principle of selecting storage is as follows: when the data volume corresponding to the data to be stored at a time exceeds a preset data volume threshold, selecting a memory with the largest residual storage space for preferential storage; when the data volume corresponding to the data to be stored at a time does not exceed a preset data volume threshold, selecting other memories except the memory with the largest residual storage space to perform random selection storage;

and the setting module is used for controlling the storage controller to set the amplification starting quantity of the storage and the standard storage numerical value of the amplification starting of the storage according to the storage data quantity acquired from the external data generation equipment or the platform in a unit time period and the total storage surplus corresponding to the initially operated storage.

Further, the screening module includes:

the quantity setting module is used for setting the quantity of the memories which are initially started by the storage controller according to the preset initial starting constraint conditions of the memories; wherein the memory initial start-up constraints are as follows:

0.3N ₀ <N<0.5N ₀

wherein N is ₀ Representing the total number of memories; n represents the amount of memory initially booted;

and the initial starting module is used for screening out memories with the quantity consistent with the memory quantity from the plurality of memories according to the memory quantity to carry out initial starting, and other unselected memories are in a dormant running state.

Further, the setting module includes:

the information monitoring and acquiring module is used for monitoring the storage data volume acquired from the external data generating equipment or platform in each unit time period by the storage controller and extracting the residual storage volume of the memory which is started to operate initially at present at the end moment of each unit time period;

the parameter setting module is used for acquiring a standard storage value of the amplification starting of the memory by combining a storage data quantity standard value setting model according to the storage data quantity acquired from external data generation equipment or a platform in each unit time period and the residual storage quantity of the memory which is started to operate initially and corresponds to the ending moment of the unit time period, and acquiring the amplification starting quantity of the memory by using an amplification starting quantity model;

and the quantity adjusting module is used for monitoring the occupied storage quantity of the memory which is started to initially run in real time by the memory controller, and starting the corresponding quantity of memories in the memories in a dormant running state according to the memory amplification starting quantity when the occupied storage quantity reaches the standard storage numerical value.

Further, the stored data amount standard value setting model is as follows:

wherein W represents a standard stored value; w is a group of ₀ Indicating that the preset occupied memory threshold value is reached, and the memory reaches W ₀ When it is time to start the setting of the standard stored value, and, W ₀ Has a value range of 0.58W _z -0.64W _z ；W _z Representing the total amount of storage space for the initial boot; w _max Represents the maximum amount of data storage occurring in the historical unit time period; n represents that the data storage amount reproduced in the history unit time period is 0.78W _max ，W _max ]Number of unit time periods of the range; w _y Indicates the remaining storage space, when (1- (W) _y /W _max ) ^-1 When N) is less than or equal to 0, (1- (W) _y /W _max ) ^-1 N)＝0.28；

The amplification starting number model is as follows:

wherein M represents the amplification starting number of the memory; n represents the number of unit time periods elapsed between the last increase of the memory, and if the memory amplification is currently performed for the first time, n represents the number of unit time periods elapsed between the initial start-up; fmax represents the amplitude proportion value of the maximum amplification of every two adjacent unit time periods in n unit time periods; w is a group of _p Represents an average stored data amount per unit time period within n unit time periods; w _d Representing the rated storage capacity corresponding to each memory; alpha represents a constant coefficient, and the value range of alpha is 0.36-0.42.

A control method of an integrated circuit system of a multifunction memory, the control method comprising:

the storage controller screens out a part of memories from the plurality of memories for initial operation;

the storage controller selectively stores the data to be stored sent by the external data generation equipment or the platform within a unit time period in the initially operated memory according to the data amount corresponding to the data to be stored at a single time; wherein, the selection principle of selecting storage is as follows: when the data volume corresponding to the data to be stored at a time exceeds a preset data volume threshold, selecting a memory with the largest residual storage space for preferential storage; when the data volume corresponding to the data to be stored at a time does not exceed a preset data volume threshold, selecting other memories except the memory with the largest residual storage space to perform random selection storage;

the memory controller sets the number of memory amplification starts and a standard memory value of the memory amplification starts according to the memory data amount acquired from the external data generation device or platform in a unit time period and the total memory remaining amount corresponding to the initially operated memory.

Further, the memory controller screens out a partial number of memories from the plurality of memories for initial operation, including:

the memory controller sets the number of initially started memories according to a preset initial starting constraint condition of the memories; wherein the memory initial start-up constraints are as follows:

0.3N ₀ <N<0.5N ₀

wherein, N ₀ Representing the total number of memories; n represents the amount of memory initially booted;

and screening out the memories with the number consistent with the memory number from the plurality of memories according to the memory number to carry out initial starting, wherein other unselected memories are in a dormant running state.

Further, the memory controller sets the number of memory amplification starts and the standard memory value of the memory amplification starts according to the amount of memory data acquired from the external data generation device or platform in a unit time period and the total memory remaining amount corresponding to the initially operated memory, and includes:

the storage controller monitors the amount of storage data acquired from external data generation equipment or a platform in each unit time period, and extracts the residual storage amount of the memory which is started to operate initially at present at the end time of each unit time period;

according to the storage data volume acquired from external data generation equipment or a platform in each unit time period and the residual storage volume of the memory which is started to operate initially and corresponds to the ending time of the unit time period, combining a storage data volume standard value setting model to acquire a standard storage numerical value of memory amplification starting, and acquiring the memory amplification starting quantity by using an amplification starting quantity model;

and the memory controller monitors the occupied memory space of the memory which is started to initially operate in real time, and starts a corresponding amount of memories in the memories in a dormant operation state according to the memory amplification starting amount when the occupied memory space reaches the standard memory value.

Further, the stored data amount standard value setting model is as follows:

wherein W represents a standard stored value; w ₀ Indicating a preset threshold of occupied memory, the memory reaching W ₀ When it is time to start the setting of the standard stored value, and, W ₀ Has a value range of 0.58W _z -0.64W _z ；W _z Representing the total amount of storage space for the initial boot; w _max Represents the maximum amount of data storage occurring in the historical unit time period; n represents that the data storage amount reproduced in the history unit time period is 0.78W _max ，W _max ]Number of unit time periods of the range; w _y Indicates the remaining storage space, when (1- (W) _y /W _max ) ^-1 When N) is less than or equal to 0,order (1- (W) _y /W _max ) ^-1 N)＝0.28。

Further, the amplification start quantity model is as follows:

wherein M represents the amplification starting number of the memory; n represents the number of unit time periods elapsed between the last increase of the memory, and if the memory amplification is currently performed for the first time, n represents the number of unit time periods elapsed between the initial start-up; fmax represents the amplitude proportion value of the maximum amplification of every two adjacent unit time periods in n unit time periods; w _p Represents an average stored data amount per unit time period within n unit time periods; w _d The rated storage capacity corresponding to each storage is represented; alpha represents a constant coefficient, and the value range of alpha is 0.36-0.42.

The invention has the beneficial effects that:

the integrated circuit system of the multifunctional memory and the control method thereof provided by the invention can meet the storage operation work of mass data by setting a plurality of memories. Meanwhile, the data storage capacity of the large platform operation system is increased along with the increase of time, so that the problem of resource waste is avoided, when the data storage capacity of the large platform system in the initial operation stage is small, only part of the memories are started to finish data storage operation, meanwhile, the data storage capacity is monitored in real time through the storage controller, the adjustment control of the increase of the memories is carried out through the data storage capacity, the storage capacity of the memories under the condition that the data storage capacity is increased along with the increase of the storage data capacity is effectively improved, and the self-adaptive adjustment capacity and the self-adaptive adjustment efficiency of the storage capacity are improved.

Drawings

FIG. 1 is a system block diagram of an integrated circuit system according to the present invention;

FIG. 2 is a flowchart of a method for controlling an integrated circuit system according to the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

An embodiment of the present invention provides an integrated circuit system of a multifunctional memory, as shown in fig. 1, the integrated circuit system includes a plurality of memories and a memory controller; the storage control signal output end of the storage controller is connected with the storage signal input ends of the plurality of storages; and the data storage signal input end of the storage controller is connected with the data information output end of external data generation equipment or platform for data transmission.

Wherein the storage controller comprises:

the screening module is used for controlling the storage controller to screen out part of memories from the plurality of memories for initial operation;

the storage control module is used for controlling the storage controller to selectively store the data to be stored sent by the external data generation equipment or the platform within a unit time period in the initially-operated memory according to the data volume corresponding to the data to be stored in a single time; wherein, the selection principle of selecting storage is as follows: when the data volume corresponding to the data to be stored at a time exceeds a preset data volume threshold, selecting a memory with the largest residual storage space for preferential storage; when the data volume corresponding to the data to be stored at a time does not exceed a preset data volume threshold, selecting other memories except the memory with the largest residual storage space to perform random selection storage;

and the setting module is used for controlling the storage controller to set the amplification starting quantity of the storage and the standard storage numerical value of the amplification starting of the storage according to the storage data quantity acquired from the external data generation equipment or the platform in a unit time period and the total storage residual quantity corresponding to the storage in initial operation.

The working principle of the technical scheme is as follows: firstly, a screening module controls a storage controller to screen a part of memories from a plurality of memories for initial operation; then, the storage control module is used for controlling the storage controller to selectively store the data to be stored, which is sent by the external data generation equipment or the platform and received in the unit time period, in the initially operated memory according to the data volume corresponding to the data to be stored in a single time; wherein, the selection principle of selecting storage is as follows: when the data volume corresponding to the data to be stored at a time exceeds a preset data volume threshold, selecting a memory with the largest residual storage space for preferential storage; when the data volume corresponding to the data to be stored at a time does not exceed a preset data volume threshold, selecting other memories except the memory with the largest residual storage space to perform random selection storage; and then, the storage controller is controlled by the setting module to set the amplification starting number of the storage and the standard storage numerical value of the amplification starting of the storage according to the storage data quantity acquired from the external data generation equipment or platform in a unit time period and the total storage residual quantity corresponding to the initially operated storage.

The effect of the above technical scheme is as follows: the integrated circuit system of the multifunctional memory provided by the embodiment can meet the storage operation work of mass data by arranging a plurality of memories. Meanwhile, the data storage capacity of the large platform operation system is increased along with the increase of time, so that the problem of resource waste is avoided, when the data storage capacity of the large platform system in the initial operation stage is small, only part of the memories are started to finish data storage operation, meanwhile, the data storage capacity is monitored in real time through the storage controller, the adjustment control of the increase of the memories is carried out through the data storage capacity, the storage capacity of the memories under the condition that the data storage capacity is increased along with the increase of the storage data capacity is effectively improved, and the self-adaptive adjustment capacity and the self-adaptive adjustment efficiency of the storage capacity are improved.

In one embodiment of the present invention, the screening module includes:

the quantity setting module is used for setting the quantity of the initially started memories by the memory controller according to a preset initial starting constraint condition of the memories; wherein the memory initial start-up constraints are as follows:

0.3N ₀ <N<0.5N ₀

wherein N is ₀ Representing the total number of memories;n represents the amount of memory initially booted;

and the initial starting module is used for screening out memories with the quantity consistent with the memory quantity from the plurality of memories according to the memory quantity to carry out initial starting, and other unselected memories are in a dormant running state.

The working principle of the technical scheme is as follows: firstly, a quantity setting module controls a storage controller to set the quantity of initially started memories according to a preset initial starting constraint condition of the memories; then, the initial starting module is used for screening out the memories with the number consistent with the number of the memories from the plurality of memories according to the number of the memories to carry out initial starting, and other unselected memories are in a dormant running state.

The effect of the above technical scheme is as follows: because the data storage capacity of the large platform operation system is increased along with the increase of time, in order to avoid the problem of resource waste, when the data storage capacity of the large platform system in the initial operation stage is small, only part of the memories are started to finish the data storage operation, and the resource waste can be effectively reduced. Meanwhile, the setting of the total amount of the memory is actually estimated by using the data storage amount of the large-scale system platform, so that the numerical value setting of the total amount of the memory indirectly reflects the overall pre-judgment condition of the overall data to be stored of the large-scale system platform, the setting of the initial starting memory amount through the constraint condition can effectively improve the reasonable allocation between the initial memory amount setting and the overall memory amount, the problem that the increase of the memory amount is frequently carried out due to the fact that the initial starting memory amount is too small, and further the operation load of the memory controller is increased is solved, meanwhile, the problem that the insufficient use of the storage space is caused when the data storage amount of the large-scale platform system at the initial operation stage is small due to the fact that the initial starting memory amount is too large and the energy consumption is increased due to the fact that the initial starting memory is always in the operation state, and further the energy waste is solved.

In one embodiment of the present invention, the setting module includes:

the information monitoring and acquiring module is used for monitoring the storage data volume acquired from the external data generating equipment or platform in each unit time period by the storage controller and extracting the residual storage volume of the memory which is started to operate initially at present at the end moment of each unit time period;

the parameter setting module is used for acquiring a standard storage value of the amplification starting of the memory by combining a storage data quantity standard value setting model according to the storage data quantity acquired from external data generation equipment or a platform in each unit time period and the residual storage quantity of the memory which is started to operate initially and corresponds to the ending moment of the unit time period, and acquiring the amplification starting quantity of the memory by using an amplification starting quantity model;

and the quantity adjusting module is used for monitoring the occupied storage quantity of the memory which is started to initially run in real time by the memory controller, and starting the corresponding quantity of memories in the memories in a dormant running state according to the memory amplification starting quantity when the occupied storage quantity reaches the standard storage numerical value.

Wherein, the stored data quantity standard value setting model is as follows:

wherein W represents a standard stored value; w is a group of ₀ Indicating that the preset occupied memory threshold value is reached, and the memory reaches W ₀ When it is time to start the setting of the standard stored value, and, W ₀ Has a value range of 0.58W _z -0.64W _z ；W _z Representing the total amount of storage space for the initial boot; w _max Represents the maximum amount of data storage occurring in the historical unit time period; n represents that the data storage amount reproduced in the history unit time period is 0.78W _max ，W _max ]Number of unit time periods of the range; w _y Indicates the remaining storage space, when (1- (W) _y /W _max ) ^-1 When N) is less than or equal to 0, (1- (W) _y /W _max ) ^-1 N)＝0.28；

The amplification starting quantity model is as follows:

wherein M represents the amplification starting number of the memory; n represents the number of unit time cycles elapsed between the last increase of the memory, and if the memory amplification is currently performed for the first time, n represents the number of unit time cycles elapsed between the initial start-up; f _max The amplitude proportion value of the maximum amplification of every two adjacent unit time periods in n unit time periods is represented; w _p Represents an average stored data amount per unit time period within n unit time periods; w _d Representing the rated storage capacity corresponding to each memory; alpha represents a constant coefficient, and the value range of alpha is 0.36-0.42.

The working principle of the technical scheme is as follows: the operation process of the setting module comprises the following steps:

firstly, an information monitoring and acquiring module controls a storage controller to monitor the storage data volume acquired from external data generation equipment or a platform in each unit time period, and extracts the residual storage volume of a memory which is started to operate initially at present at the end moment of each unit time period; then, acquiring a standard storage value of the amplification start of the memory by using a parameter setting module according to the storage data volume acquired from external data generation equipment or a platform in each unit time period and the residual storage volume of the memory which is started to operate initially and corresponds to the ending time of the unit time period by combining a storage data volume standard value setting model, and acquiring the amplification start quantity of the memory by using an amplification start quantity model; and finally, controlling the memory controller to monitor the occupied memory space of the memory which is started to operate initially in real time by adopting a quantity adjusting module, and starting the corresponding quantity of memories in the memories in a dormant operation state according to the increased starting quantity of the memories when the occupied memory space reaches the standard memory value.

The effect of the above technical scheme is as follows: the data storage quantity is monitored in real time through the storage controller, and the adjustment control of the increase of the storage is carried out through the data storage quantity, so that the storage capacity of the storage under the condition that the storage data quantity is increased is effectively improved, and the self-adaptive adjustment capacity and the self-adaptive adjustment efficiency of the storage capacity are improved.

Meanwhile, the standard storage value obtained through the storage data quantity standard value setting model is set according to the actual condition of data storage, and the accuracy and the reasonableness of the setting of the standard storage value can be effectively improved. And then effectively improve the promptness of amplification execution, prevent that standard storage numerical value from setting up to lead to excessively low and carrying out the memory increment setting in advance and lead to the storage space to use inadequately, the memory is in running state all the time and the energy consumption that causes increases, and then causes the extravagant problem of energy to take place. Meanwhile, the timeliness that the increment of the memory cannot be set due to the fact that the standard storage numerical value is set too high can be prevented, the occurrence rate of storage saturation of the storage device is increased, storage efficiency is reduced, and storage faults are improved. Meanwhile, the increment setting is carried out according to the actual change condition of the data storage through the increment starting quantity of the storage, so that the reasonability and the accuracy of the increment setting can be effectively improved, the problem that the storage is not used enough and wastes resources due to overlarge increment setting is prevented, and the problem that the storage is frequently incremented due to undersize increment setting and the running load of the storage controller is increased can be avoided.

An embodiment of the present invention provides a method for controlling an integrated circuit system of a multifunctional memory, as shown in fig. 2, the method includes:

s1, a storage controller screens out part of memories from a plurality of memories to perform initial operation;

s2, the storage controller selectively stores the data to be stored, which is sent by the external data generation equipment or the platform and received in the unit time period, in the initially operated memory according to the data volume corresponding to the data to be stored in a single time; wherein, the selection principle of selecting storage is as follows: when the data volume corresponding to the data to be stored at a time exceeds a preset data volume threshold, selecting a memory with the largest residual storage space for preferential storage; when the data volume corresponding to the data to be stored at a time does not exceed a preset data volume threshold, selecting other memories except the memory with the largest residual storage space to perform random selection storage;

and S3, the memory controller sets the amplification starting number of the memory and the standard memory numerical value of the amplification starting of the memory according to the memory data quantity acquired from the external data generating equipment or the platform in a unit time period and the total memory surplus corresponding to the initially operated memory.

The working principle of the technical scheme is as follows: firstly, a storage controller screens out part of memories from a plurality of memories to carry out initial operation; then, the storage controller selectively stores the data to be stored, which is sent by the external data generation equipment or the platform and received in the unit time period, in the initially operated memory according to the data volume corresponding to the data to be stored in a single time; wherein, the selection principle of selecting storage is as follows: when the data volume corresponding to the data to be stored at a time exceeds a preset data volume threshold, selecting a memory with the largest residual storage space for preferential storage; when the data volume corresponding to the data to be stored at a time does not exceed a preset data volume threshold, selecting other memories except the memory with the largest residual storage space to perform random selection storage; and finally, the memory controller sets the amplification starting number of the memory and the standard memory value of the amplification starting of the memory according to the memory data quantity acquired from the external data generating equipment or the platform in a unit time period and the total memory surplus corresponding to the initially operated memory.

The effect of the above technical scheme is: the control method for the integrated circuit system of the multifunctional memory provided by the embodiment can meet the storage operation work of mass data by setting a plurality of memories. Meanwhile, the data storage capacity of the large platform operation system is increased along with the increase of time, so that the problem of resource waste is avoided, when the data storage capacity of the large platform system in the initial operation stage is small, only part of the memories are started to finish data storage operation, meanwhile, the data storage capacity is monitored in real time through the storage controller, the adjustment control of the increase of the memories is carried out through the data storage capacity, the storage capacity of the memories under the condition that the data storage capacity is increased along with the increase of the storage data capacity is effectively improved, and the self-adaptive adjustment capacity and the self-adaptive adjustment efficiency of the storage capacity are improved.

In one embodiment of the present invention, a storage controller screens out a partial number of storages from a plurality of storages for initial operation, comprising:

s101, a storage controller sets the number of initially started memories according to a preset initial starting constraint condition of the memories; wherein the memory initial start-up constraints are as follows:

0.3N ₀ <N<0.5N ₀

wherein N is ₀ Representing the total number of memories; n represents the amount of memory initially booted;

s102, screening out memories with the number consistent with the number of the memories from the plurality of memories according to the number of the memories to perform initial starting, wherein other unselected memories are in a dormant running state.

The working principle of the technical scheme is as follows: firstly, a memory controller sets the number of initially started memories according to a preset initial starting constraint condition of the memories; then, the memories with the number consistent with the memory number are screened out from the plurality of memories according to the memory number to carry out initial starting, and other unselected memories are in a dormant running state.

The effect of the above technical scheme is: because the data storage capacity of the large platform operation system is increased along with the increase of time, in order to avoid the problem of resource waste, when the data storage capacity of the large platform system in the initial operation stage is small, only part of the memories are started to finish the data storage operation, and the resource waste can be effectively reduced. Meanwhile, the setting of the total amount of the memory actually uses the data storage amount of the large-scale system platform to be estimated, so that the numerical value setting of the total amount of the memory indirectly reflects the overall pre-judging condition of the overall data to be stored of the large-scale system platform, the setting of the initial starting memory amount through the constraint condition can effectively improve the reasonable distribution between the initial memory amount setting and the overall memory amount, the problem that the number of the memory is increased frequently due to the fact that the number of the memory is set to be too small during initial starting, and further the operation load of the memory controller is increased is prevented from occurring, meanwhile, the problem that the storage space is not used enough when the data storage amount of the large-scale system at the initial operation stage is small due to the fact that the number of the memory is set to be too large, but the energy consumption is increased due to the fact that the initial starting memory is always in the operation state, and further the energy waste is caused can be prevented from occurring.

In an embodiment of the present invention, the method for setting the number of memory amplification starts and the standard storage value of the memory amplification starts by the memory controller according to the amount of storage data acquired from the external data generation device or platform in a unit time period and the total remaining storage amount corresponding to the initially operated memory includes:

s301, the storage controller monitors the storage data volume acquired from external data generation equipment or a platform in each unit time period, and extracts the residual storage volume of the memory which is started to initially run at present at the end time of each unit time period;

s302, acquiring a standard storage value of memory amplification starting by combining a storage data quantity standard value setting model according to a storage data quantity acquired from an external data generation device or platform in each unit time period and the residual storage quantity of a memory which is started to operate initially and corresponds to the ending time of the unit time period, and acquiring the amplification starting quantity of the memory by using an amplification starting quantity model;

s303, the memory controller monitors the occupied memory space of the memory which is started to operate initially in real time, and when the occupied memory space reaches the standard memory value, the memory with the corresponding number is started in the memory in the dormant operation state according to the memory amplification starting number.

Wherein, the stored data quantity standard value setting model is as follows:

wherein, WRepresents a standard stored value; w ₀ Indicating that the preset occupied memory threshold value is reached, and the memory reaches W ₀ When it is time to start the setting of the standard stored value, and, W ₀ Has a value range of 0.58W _z -0.64W _z ；W _z Representing the total amount of storage space for the initial boot; w _max Representing a maximum amount of data storage occurring in a historical unit time period; n represents that the data storage amount reproduced in the history unit time period is 0.78W _max ，W _max ]Number of unit time periods of the range; w _y Indicates the remaining storage space, when (1- (W) _y /W _max ) ^-1 When N) is less than or equal to 0, (1- (W) _y /W _max ) ^-1 N)＝0.28。

The amplification starting quantity model is as follows:

wherein M represents the number of amplification starts of the memory; n represents the number of unit time periods elapsed between the last increase of the memory, and if the memory amplification is currently performed for the first time, n represents the number of unit time periods elapsed between the initial start-up; f _max The amplitude ratio value of the maximum amplification of every two adjacent unit time periods in n unit time periods is represented; w _p Represents an average stored data amount per unit time period within n unit time periods; w _d Representing the rated storage capacity corresponding to each memory; alpha represents a constant coefficient, and the value range of alpha is 0.36-0.42.

The working principle of the technical scheme is as follows: firstly, the storage controller monitors the amount of storage data acquired from external data generation equipment or a platform in each unit time period, and extracts the residual storage amount of a memory which is started to initially run at the end of each unit time period; then, according to the storage data volume acquired from external data generation equipment or a platform in each unit time period and the residual storage volume of the memory which is started to operate initially and corresponds to the end time of the unit time period, combining a storage data volume standard value setting model to acquire a standard storage numerical value of memory amplification starting, and acquiring the amplification starting quantity of the memory by using an amplification starting quantity model; and finally, the memory controller monitors the occupied memory space of the memory which is started to operate initially in real time, and when the occupied memory space reaches the standard memory value, the memory with the corresponding quantity is started in the memory in the dormant operation state according to the memory amplification starting quantity.

The effect of the above technical scheme is: the data storage quantity is monitored in real time through the storage controller, and the adjustment control of the increase of the storage is carried out through the data storage quantity, so that the storage capacity of the storage under the condition that the storage data quantity is increased is effectively improved, and the self-adaptive adjustment capacity and the self-adaptive adjustment efficiency of the storage capacity are improved.

Meanwhile, the standard storage value obtained through the storage data quantity standard value setting model is set according to the actual condition of data storage, and the accuracy and the reasonability of setting the standard storage value can be effectively improved. And then effectively improve the promptness of amplification execution, prevent that standard storage numerical value from setting up to lead to excessively low and carrying out the memory increment setting in advance and lead to the storage space to use inadequately, the memory is in running state all the time and the energy consumption that causes increases, and then causes the extravagant problem of energy to take place. Meanwhile, the timeliness that the increment of the memory cannot be set due to the fact that the standard storage numerical value is set too high can be prevented, the occurrence rate of storage saturation of the storage device is increased, storage efficiency is reduced, and storage faults are improved. Meanwhile, the increment setting is carried out according to the actual change condition of the data storage through the increment starting quantity of the storage, so that the reasonability and the accuracy of the increment setting can be effectively improved, the problem that the storage is not used enough and wastes resources due to overlarge increment setting is prevented, and the problem that the storage is frequently incremented due to undersize increment setting and the running load of the storage controller is increased can be avoided.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. An integrated circuit system of a multifunction memory, the integrated circuit system comprising a plurality of memories and a memory controller; the storage control signal output end of the storage controller is connected with the storage signal input ends of the plurality of storages; and the data storage signal input end of the storage controller is connected with the data information output end of external data generation equipment or platform for data transmission.

2. The integrated circuit system of claim 1, wherein the memory controller comprises:

the screening module is used for controlling the storage controller to screen out part of memories from the plurality of memories for initial operation;

the storage control module is used for controlling the storage controller to selectively store the data to be stored, which is received in a unit time period and sent by the external data generation equipment or the platform, in the initially-operated memory according to the data volume corresponding to the data to be stored in a single time;

and the setting module is used for controlling the storage controller to set the amplification starting quantity of the storage and the standard storage numerical value of the amplification starting of the storage according to the storage data quantity acquired from the external data generation equipment or the platform in a unit time period and the total storage surplus corresponding to the initially operated storage.

3. The integrated circuit system of claim 2, wherein the screening module comprises:

the quantity setting module is used for setting the quantity of the initially started memories by the memory controller according to a preset initial starting constraint condition of the memories; wherein the memory initial start-up constraints are as follows:

0.3N ₀ <N<0.5N ₀

wherein N is ₀ Presentation memoryThe total number of (2); n represents the amount of memory initially booted;

and the initial starting module is used for screening out the memories with the number consistent with the memory number from the plurality of memories according to the memory number to carry out initial starting, and other unselected memories are in a dormant running state.

4. The integrated circuit system of claim 2, wherein the setup module comprises:

the information monitoring and acquiring module is used for monitoring the storage data volume acquired from the external data generating equipment or platform in each unit time period by the storage controller and extracting the residual storage volume of the memory which is started to operate initially at present at the end moment of each unit time period;

the parameter setting module is used for acquiring a standard storage value of the amplification starting of the memory by combining a storage data quantity standard value setting model according to the storage data quantity acquired from external data generation equipment or a platform in each unit time period and the residual storage quantity of the memory which is started to operate initially and corresponds to the ending moment of the unit time period, and acquiring the amplification starting quantity of the memory by using an amplification starting quantity model;

and the quantity adjusting module is used for monitoring the occupied storage quantity of the memory which is started to initially run in real time by the memory controller, and starting the corresponding quantity of memories in the memories in a dormant running state according to the memory amplification starting quantity when the occupied storage quantity reaches the standard storage numerical value.

5. The integrated circuit system control method according to claim 8, wherein the stored-data-amount standard value setting model is as follows:

wherein W represents a standard stored value; w ₀ Indicating a predetermined threshold of occupied memoryThe storage amount reaches W ₀ When it is time to start the setting of the standard stored value, and, W ₀ Has a value range of 0.58W _z -0.64W _z ；W _z Representing the total amount of storage space for the initial boot; w _max Represents the maximum amount of data storage occurring in the historical unit time period; n represents that the data storage amount reproduced in the history unit time period is 0.78W _max ，W _max ]Number of unit time periods of the range; w _y Indicates the remaining storage space, when (1- (W) _y /W _max ) ^-1 When N) is less than or equal to 0, (1- (W) _y /W _max ) ^-1 N)＝0.28；

The amplification starting number model is as follows:

wherein M represents the amplification starting number of the memory; n represents the number of unit time periods elapsed between the last increase of the memory, and if the memory amplification is currently performed for the first time, n represents the number of unit time periods elapsed between the initial start-up; f _max The amplitude proportion value of the maximum amplification of every two adjacent unit time periods in n unit time periods is represented; w _p Represents an average stored data amount per unit time period within n unit time periods; w _d The rated storage capacity corresponding to each storage is represented; alpha represents a constant coefficient, and the value range of the alpha is 0.36-0.42.

6. A method for controlling an integrated circuit system of a multifunction memory, the method comprising:

the storage controller screens out a part of memories from the plurality of memories for initial operation;

the storage controller selectively stores the data to be stored sent by the external data generation equipment or the platform within a unit time period in the initially operated memory according to the data amount corresponding to the data to be stored at a single time;

the memory controller sets the number of memory amplification starts and the standard memory value of the memory amplification starts according to the memory data amount acquired from the external data generation device or platform in a unit time period and the total memory surplus corresponding to the initially operated memory.

7. The method of claim 6, wherein the memory controller selects a partial amount of memory from the plurality of memories for initial operation, comprising:

the memory controller sets the number of memories for initial start according to the preset initial start constraint conditions of the memories; wherein the memory initial start-up constraints are as follows:

0.3N ₀ <N<0.5N ₀

wherein N is ₀ Representing the total number of memories; n represents the amount of memory initially booted;

and screening out the memories with the number consistent with the memory number from the plurality of memories according to the memory number to carry out initial starting, wherein other unselected memories are in a dormant running state.

8. The method of claim 6, wherein the memory controller sets the number of memory amplification starts and the standard memory value of the memory amplification starts according to the amount of memory data acquired from the external data generating device or platform and the total remaining memory amount corresponding to the initially operated memory in the unit time period, and comprises:

the storage controller monitors the amount of storage data acquired from external data generation equipment or a platform in each unit time period, and extracts the residual storage amount of the memory which is started to operate initially at present at the end time of each unit time period;

according to the storage data volume acquired from external data generation equipment or a platform in each unit time period and the residual storage volume of the memory which is started to operate initially and corresponds to the ending time of the unit time period, combining a storage data volume standard value setting model to acquire a standard storage numerical value of memory amplification starting, and acquiring the memory amplification starting quantity by using an amplification starting quantity model;

and the memory controller monitors the occupied memory space of the memory which is started to initially operate in real time, and starts a corresponding amount of memories in the memories in a dormant operation state according to the memory amplification starting amount when the occupied memory space reaches the standard memory value.

9. The method of controlling an integrated circuit system according to claim 8, wherein the stored-data-amount standard-value setting model is as follows:

wherein W represents a standard stored value; w ₀ Indicating a preset threshold of occupied memory, the memory reaching W ₀ When it is time to start the setting of the standard stored value, and, W ₀ Has a value range of 0.58W _z -0.64W _z ；W _z Representing the total amount of storage space for the initial boot; w _max Represents the maximum amount of data storage occurring in the historical unit time period; n represents that the data storage amount reproduced in the history unit time period is 0.78W _max ，W _max ]Number of unit time periods of the range; w _y Indicates the remaining storage space, when (1- (W) _y /W _max ) ^-1 When N) is less than or equal to 0, (1- (W) _y /W _max ) ^-1 N)＝0.28。

10. The method of claim 8, wherein the model of the number of amplification starts is as follows:

wherein M represents the amplification starting number of the memory; n represents the number of unit time periods elapsed between the last increase of the memory, and if the memory amplification is currently performed for the first time, n represents the number of unit time periods elapsed between the initial start-up; f _max The amplitude proportion value of the maximum amplification of every two adjacent unit time periods in n unit time periods is represented; w _p Represents an average stored data amount per unit time period within n unit time periods; w _d Representing the rated storage capacity corresponding to each memory; alpha represents a constant coefficient, and the value range of the alpha is 0.36-0.42.

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