JP2015041253A5 - Information processing system, control device, control method, control program, and monitoring recorder system - Google Patents

Description

The present invention relates to an information processing system, a control apparatus, a control method, control program, and a monitoring recorder system.

In the present invention, in a configuration in which the first CPU and the second CPU sequentially access the common non-volatile memory to perform the startup process, the second CPU starts after the first CPU starts the startup process. the information processing system capable of suppressing a situation that can not start the process, the control device, a control method, and to provide control programs, and the monitoring recorder system.

An information processing system according to the present invention includes a nonvolatile memory storing a first activation program for activating a first system and a second activation program for activating a second system, and the nonvolatile memory Reading and executing the first activation program from the first CPU for performing activation processing for activating the first system, and reading and executing the second activation program from the nonvolatile memory. The second CPU that performs a startup process for starting up the second system, and one of the first CPU and the second CPU during the startup process of the first CPU and the second CPU. Control means for selectively connecting to the non-volatile memory, the first CPU starting the start-up process, and then changing the connection of the non-volatile memory. Control means for changing the connection destination of the non-volatile memory from the first CPU to the second CPU upon detection of a rigger, the control means starting the start-up process by the first CPU Thereafter, when it is determined that a predetermined time has elapsed without detecting the trigger, the connection destination of the nonvolatile memory is changed from the first CPU to the second CPU.

Further, the control device according to the present invention includes a nonvolatile memory storing a first activation program for activating the first system and a second activation program for activating the second system, and the nonvolatile memory By reading and executing the first boot program from the memory, the first CPU for performing boot processing for booting the first system and the second boot program from the nonvolatile memory are read and executed. Thus, a control device of an information processing system comprising a second CPU that performs a startup process for starting up the second system, wherein the first CPU and the second CPU are started during the startup process . CPU selection means for selectively connecting one of the first CPU and the second CPU to the nonvolatile memory, and the first CPU opens the startup process. After that, a detecting means for detecting a trigger for changing the connection of the non-volatile memory and an elapsed time from the start of the startup process of the first CPU are measured, and the progress without detecting the trigger by the detecting means A time determination unit that determines whether a predetermined time has elapsed, and the CPU selection unit, when the detection unit detects the trigger after the first CPU starts the startup process, and When the time determination unit determines that the predetermined time has elapsed, the connection destination of the nonvolatile memory is changed from the first CPU to the second CPU.

Further, the control method according to the present invention includes a nonvolatile memory storing a first activation program for activating a first system and a second activation program for activating a second system, and the nonvolatile memory By reading and executing the first boot program from the memory, the first CPU for performing boot processing for booting the first system and the second boot program from the nonvolatile memory are read and executed. Accordingly, there is provided a control method for an information processing system including a second CPU that performs a startup process for starting up the second system, wherein the first CPU and the second CPU are activated during the startup process . A CPU selection step of selectively connecting one of the first CPU and the second CPU to the nonvolatile memory; and the first CPU opens the startup process. Then, a detection step of detecting a trigger for changing the connection of the nonvolatile memory, and an elapsed time from the start of the startup process of the first CPU are measured, and the progress is detected without the detection step detecting the trigger. A time determination step for determining whether a predetermined time has elapsed, wherein the CPU selection step is performed when the detection step detects the trigger after the first CPU starts the activation process, and When the time determination step determines that the predetermined time has elapsed, the connection destination of the nonvolatile memory is changed from the first CPU to the second CPU.

In addition, a control program according to the present invention includes a nonvolatile memory that stores a first activation program for activating a first system and a second activation program for activating a second system, and the nonvolatile memory By reading and executing the first boot program from the memory, the first CPU for performing boot processing for booting the first system and the second boot program from the nonvolatile memory are read and executed. Accordingly, there is provided a control program for an information processing system including a second CPU that performs a startup process for starting up the second system, wherein the first CPU and the second CPU are started during the startup process . A CPU selection step of selectively connecting one of the first CPU and the second CPU to the nonvolatile memory; and After starting the dynamic processing, a detection step of detecting a trigger for changing the connection of the nonvolatile memory and an elapsed time from the start of the startup processing of the first CPU are measured, and the detection step detects the trigger Without causing the computer to execute a time determination step for determining whether or not the elapsed time has passed a predetermined time, and the CPU selection step is performed after the first CPU starts the startup process, When a trigger is detected, and when the time determination step determines that the predetermined time has elapsed, the connection destination of the nonvolatile memory is changed from the first CPU to the second CPU. .
The surveillance recorder system according to the present invention also stores a recording start program for starting a recording system for recording video data and a playback start program for starting a playback system for playing back the recorded video data. Read-out program from the non-volatile memory, a recording-system CPU that performs a start-up process for starting up the recording system by reading out and executing the recording-start program from the non-volatile memory, and executing the read-out start program from the non-volatile memory Accordingly, during the start-up process of the recording system CPU and the playback system CPU, one of the recording system CPU and the playback system CPU is selectively set to the nonvolatile memory. Control means for connecting to a memory, wherein the recording CPU is activated Control means for changing the connection destination of the nonvolatile memory from the recording system CPU to the reproduction system CPU upon detecting a trigger for changing the connection of the nonvolatile memory after starting the operation, If it is determined that a predetermined time has elapsed without detecting the trigger after the recording system CPU has started the activation process, the connection destination of the nonvolatile memory is changed from the recording system CPU to the reproduction system CPU. It is characterized by that.

Claims (16)

A non-volatile memory storing a first start program for starting the first system and a second start program for starting the second system;
A first CPU that performs a boot process for booting the first system by reading and executing the first boot program from the non-volatile memory;
A second CPU that performs a boot process for booting the second system by reading and executing the second boot program from the nonvolatile memory;
Control means for selectively connecting one of the first CPU and the second CPU to the non-volatile memory during a startup process of the first CPU and the second CPU, Control means for changing the connection destination of the nonvolatile memory from the first CPU to the second CPU when a trigger for changing the connection of the nonvolatile memory is detected after the CPU starts the activation process. ,
When the control unit determines that a predetermined time has elapsed without detecting the trigger after the first CPU has started the startup process, the control unit determines the connection destination of the nonvolatile memory from the first CPU. An information processing system, wherein the information processing system is changed to the second CPU.   The information processing system according to claim 1, wherein the trigger is completion of the start-up process of the first CPU.   The information processing system according to claim 1, wherein the trigger is a connection change request output from the first CPU.   When it is determined that a predetermined time has elapsed without detecting the trigger, the control unit changes the connection destination of the nonvolatile memory from the first CPU to the second CPU, and the second CPU The information processing system according to any one of claims 1 to 3, wherein the startup process is started. The non-volatile memory further stores a spare boot program for booting the first system,
When the first CPU starts an activation process by the first activation program and detects an abnormality in the first activation program, the control means sends the spare activation program to the first CPU. The information processing system according to any one of claims 1 to 4, characterized in that a startup process is executed.   6. The information processing system according to claim 5, wherein the abnormality of the first activation program is that activation processing by the first activation program does not end within a predetermined determination time. The control means includes
After the first CPU starts the boot process by the first boot program,
When it is detected that the startup process of the first CPU is completed within the predetermined time, the connection destination of the nonvolatile memory is changed from the first CPU to the second CPU;
When it is determined that the predetermined time has elapsed without detecting that the startup process of the first CPU has been completed, the first CPU is caused to execute the startup process by the spare startup program, and then the nonvolatile CPU 7. The information processing system according to claim 6, wherein the connection destination of the volatile memory is changed from the first CPU to the second CPU. The control means includes
After the first CPU starts the boot process by the first boot program,
When it is detected that the startup process of the first CPU is completed within the predetermined time, the connection destination of the nonvolatile memory is changed from the first CPU to the second CPU;
When it is determined that the predetermined time has elapsed without detecting that the startup process of the first CPU has ended, the connection destination of the nonvolatile memory is changed from the first CPU to the second CPU. , Causing the second CPU to execute the startup process, then changing the connection destination of the nonvolatile memory to the first CPU, and causing the first CPU to execute the startup process by the spare startup program The information processing system according to claim 6. Address storage means for storing address information indicating the address of each startup program in the nonvolatile memory,
Each of the CPUs, when reading a startup program from the nonvolatile memory, sends a read request to the control means, and executes the startup program read from the nonvolatile memory by the control means in response to the read request,
The control means accesses the address storage means to acquire the address information, and receives the read request from a CPU connected to the nonvolatile memory among the first CPU and the second CPU. The information processing system according to any one of claims 1 to 8, wherein a startup program to be executed by the CPU is selectively read from the nonvolatile memory based on the address information. Address storage means for storing address information indicating the address of each startup program in the nonvolatile memory,
Each of the CPUs, when reading a startup program from the nonvolatile memory, sends a read request to the control means, and executes the startup program read from the nonvolatile memory by the control means in response to the read request,
The control means includes
CPU selection means for selectively connecting one of the first CPU and the second CPU to the nonvolatile memory;
Boot start means for instructing the first CPU or the second CPU to start boot processing;
When the address storage unit is accessed to acquire the address information and the read request is received from a CPU connected to the nonvolatile memory, a boot program to be executed by the CPU is stored in the address information from the nonvolatile memory. Starting program selection means for selectively reading based on,
Detecting means for detecting the trigger;
A time determination unit that measures an elapsed time from the start of the startup process of the first CPU and determines whether the elapsed time has passed the predetermined time without the detection unit detecting the trigger;
When the detection means detects the trigger after the first CPU starts the startup process, and when the time determination means determines that the predetermined time has elapsed, the CPU selection means is the nonvolatile memory. Is changed from the first CPU to the second CPU, the activation start means instructs the second CPU to start the activation process, and the activation program selection means is changed from the second CPU. 5. The information processing system according to claim 1, wherein the second activation program is read in response to the read request. Address storage means for storing address information indicating the address of each startup program in the nonvolatile memory,
Each of the CPUs, when reading a startup program from the nonvolatile memory, sends a read request to the control means, and executes the startup program read from the nonvolatile memory by the control means in response to the read request,
The control means includes
CPU selection means for selectively connecting one of the first CPU and the second CPU to the nonvolatile memory;
Boot start means for instructing the first CPU or the second CPU to start boot processing;
When the address storage unit is accessed to acquire the address information and the read request is received from a CPU connected to the nonvolatile memory, a boot program to be executed by the CPU is stored in the address information from the nonvolatile memory. Starting program selection means for selectively reading based on,
Detecting means for detecting the end of the startup process of the first CPU;
The elapsed time from the start of the startup process of the first CPU is measured, and it is determined whether the elapsed time has passed the predetermined time without the detection means detecting the end of the startup process of the first CPU. And a time determination means for
After the first CPU starts the boot process by the first boot program,
If the detection means detects the end of the activation process before the time determination means determines that the predetermined time has elapsed, the CPU selection means determines the connection destination of the nonvolatile memory from the first CPU. Change to the second CPU, the activation start means instructs the second CPU to start the activation process, and the activation program selection means responds to the read request from the second CPU, the second CPU Read the startup program,
When the time determination unit determines that the predetermined time has elapsed, the activation start unit instructs the first CPU to start an activation process, and the activation program selection unit performs a read request from the first CPU. And the CPU selection unit changes the connection destination of the nonvolatile memory from the first CPU to the second CPU, and the activation start unit 7. The information processing system according to claim 6, wherein an instruction to start a boot process is instructed to the CPU, and the boot program selection unit reads the second boot program in response to a read request from the second CPU. . Address storage means for storing address information indicating the address of each startup program in the nonvolatile memory,
Each of the CPUs, when reading a startup program from the nonvolatile memory, sends a read request to the control means, and executes the startup program read from the nonvolatile memory by the control means in response to the read request,
The control means includes
CPU selection means for selectively connecting one of the first CPU and the second CPU to the nonvolatile memory;
Boot start means for instructing the first CPU or the second CPU to start boot processing;
When the address storage unit is accessed to acquire the address information and the read request is received from a CPU connected to the nonvolatile memory, a boot program to be executed by the CPU is stored in the address information from the nonvolatile memory. Starting program selection means for selectively reading based on,
Detecting means for detecting the end of the startup process of the first CPU;
The elapsed time from the start of the startup process of the first CPU is measured, and it is determined whether the elapsed time has passed the predetermined time without the detection means detecting the end of the startup process of the first CPU. And a time determination means for
After the first CPU starts the boot process by the first boot program,
If the detection means detects the end of the activation process before the time determination means determines that the predetermined time has elapsed, the CPU selection means determines the connection destination of the nonvolatile memory from the first CPU. Change to the second CPU, the activation start means instructs the second CPU to start the activation process, and the activation program selection means responds to the read request from the second CPU, the second CPU Read the startup program,
When the time determination unit determines that the predetermined time has elapsed, the CPU selection unit changes the connection destination of the nonvolatile memory from the first CPU to the second CPU, and the activation start unit The second CPU is instructed to start the boot process, and the boot program selecting means reads the second boot program in response to a read request from the second CPU, and then the CPU selecting means is the nonvolatile memory. The connection destination of the memory is changed to the first CPU, the activation start unit instructs the first CPU to start the activation process, and the activation program selection unit responds to a read request from the first CPU. The information processing system according to claim 6, wherein the spare activation program is read out. A non-volatile memory storing a first start program for starting the first system and a second start program for starting the second system;
A first CPU that performs a boot process for booting the first system by reading and executing the first boot program from the non-volatile memory;
A control device of an information processing system comprising: a second CPU that performs a boot process for booting the second system by reading and executing the second boot program from the nonvolatile memory;
CPU selection means for selectively connecting one of the first CPU and the second CPU to the non-volatile memory during the startup process of the first CPU and the second CPU;
Detection means for detecting a connection change trigger of the nonvolatile memory after the first CPU starts the startup process;
A time determination unit that measures an elapsed time from the start of the startup process of the first CPU and determines whether the elapsed time has passed a predetermined time without the detection unit detecting the trigger;
The CPU selection unit is configured to detect the non-volatile state when the detection unit detects the trigger after the first CPU starts the activation process, and when the time determination unit determines that the predetermined time has elapsed. A control device that changes the connection destination of the volatile memory from the first CPU to the second CPU. A non-volatile memory storing a first start program for starting the first system and a second start program for starting the second system;
A first CPU that performs a boot process for booting the first system by reading and executing the first boot program from the non-volatile memory;
A control method of an information processing system comprising: a second CPU that performs a boot process for booting the second system by reading and executing the second boot program from the nonvolatile memory,
A CPU selection step of selectively connecting one of the first CPU and the second CPU to the non-volatile memory during a startup process of the first CPU and the second CPU;
A detecting step of detecting a connection change trigger of the nonvolatile memory after the first CPU starts the startup process;
A time determination step of measuring an elapsed time from the start of the startup process of the first CPU, and determining whether the elapsed time has passed a predetermined time without the detection step detecting the trigger,
The CPU selection step is performed when the detection step detects the trigger after the first CPU starts the activation process, and when the time determination step determines that the predetermined time has elapsed, A control method for changing a connection destination of a volatile memory from the first CPU to the second CPU. A non-volatile memory storing a first start program for starting the first system and a second start program for starting the second system;
A first CPU that performs a boot process for booting the first system by reading and executing the first boot program from the non-volatile memory;
A control program for an information processing system comprising: a second CPU that performs a boot process for booting the second system by reading and executing the second boot program from the nonvolatile memory;
A CPU selection step of selectively connecting one of the first CPU and the second CPU to the non-volatile memory during a startup process of the first CPU and the second CPU;
A detecting step of detecting a connection change trigger of the nonvolatile memory after the first CPU starts the startup process;
A time determination step of measuring an elapsed time from the start of the startup processing of the first CPU and determining whether the elapsed time has passed a predetermined time without detecting the trigger in the computer; Let
The CPU selection step is performed when the detection step detects the trigger after the first CPU starts the activation process, and when the time determination step determines that the predetermined time has elapsed, A control program for changing the connection destination of the volatile memory from the first CPU to the second CPU. A non-volatile memory for storing a recording start program for starting a recording system for recording video data and a playback start program for starting a playback system for reproducing the recorded video data;
  A recording system CPU that performs a starting process for starting the recording system by reading and executing the recording start program from the nonvolatile memory;
  A playback system CPU that performs a startup process to start up the playback system by reading and executing the playback startup program from the nonvolatile memory;
  Control means for selectively connecting one of the recording system CPU and the reproduction system CPU to the nonvolatile memory during the activation process of the recording system CPU and the reproduction system CPU, wherein the recording system CPU performs the activation process And a control means for changing the connection destination of the nonvolatile memory from the recording CPU to the reproduction CPU when a trigger for changing the connection of the nonvolatile memory is detected.
With
  When the recording unit CPU determines that a predetermined time has passed without detecting the trigger after the recording system CPU has started the start-up process, the control unit determines the connection destination of the nonvolatile memory from the recording system CPU. A monitoring recorder system characterized by changing to a system CPU.