KR101101865B1 - Mobile apparatus and method for file loading - Google Patents

Abstract

The present invention discloses a mobile device and a file storage method. According to the present embodiment, a main processor that performs system control, a media processor that performs a media application by a media application execution request from the main processor, a storage control device that performs a file storage or file read command requested from the main processor, and a main At least one of a first memory to which the processor and the storage control device are commonly connected, a second memory and a main processor to be connected to the storage control device to store a file, a media processor, and a storage control device to be commonly accessed and to be executed by the media processor. And a third memory in which the media file is stored, wherein the storage control device reads the media file corresponding to the media file loading command from the second memory when the media file loading command is received from the main processor. That can provide the mobile device, and file loading characterized in that.

Description

MOBILE APPARATUS AND METHOD FOR FILE LOADING}

The present invention relates to a mobile device and a file loading method.

Modern mobile devices include media processors for the execution of various multimedia. Mobile devices use a separate processor to process media files that run on the main processor.

However, conventional mobile devices primarily load media files stored in flash memory into the main processor to execute the media files, and then store the media files in memory between the main processor and the media processor. Since the media processor executes the media file in such a way that the media processor accesses the memory, the file storage path is complicated. In addition, since each processor needs to be driven several times, the power consumption is large, thereby reducing the battery usage time of the mobile device.

In addition, the loading time of the media file becomes long, and the load on the main processor increases.

The present invention can provide a mobile device and a file loading method for directly storing a media file in a memory shared by a media processor in a storage control device.

The present invention can provide a mobile device and a file loading method that can reduce power consumption.

The present invention can provide a mobile device and a file loading method that can reduce the load of the main processor.

According to an aspect of the present invention, a main processor for performing system control; A media processor executing a media application by a media application execution request from the main processor; A storage control device configured to perform a file save or file read command requested from the main processor; A first memory to which the main processor and the storage control device are commonly connected; A second memory connected to the storage control device to store a file; And a third memory in which the main processor, the media processor, and the storage control device access in common, and where at least one media file to be executed in the media processor is stored, wherein the storage control device comprises a media file from the main processor. When the loading command is received, the mobile device may be configured to read a media file corresponding to the media file loading command from the second memory and store the media file in the third memory.

The first memory further includes a first storage area to which the main processor and the storage control device commonly access the first memory, wherein the first storage area has a first interrupt signal to the storage control device when the media file loading command is stored. Can be transmitted.

The media file loading command may further include address information of the media file stored in the second memory or memory information in which the media file is loaded.

When the transmission of the media file is completed to the third memory, the storage control device transmits file transfer completion information to the first memory, and the first memory transmits a second interrupt signal when the file transfer completion information is stored. May be transmitted to the main processor.

When the second interrupt signal is transmitted, the main processor may access the first memory to receive the file transfer completion information and store a media file execution command in the third memory.

The third memory may transmit a third interrupt signal to the media processor when the media file execution command is received.

When the media processor receives the third interrupt signal, the media processor may access the third memory to load the media file execution command and the media file corresponding to the media file execution command to execute the media file.

The first memory and the third memory may be volatile memory.

The second memory may be a nonvolatile memory.

According to another embodiment of the present invention, the method comprising the steps of: (a) storing a media file loading command in a first memory; (b) receiving a media file loading command stored in the first memory at a storage control device and reading the media file from a second memory; (c) storing the media file in a third memory at the storage control device; And (d) accessing the third memory from the media processor to execute the media file.

The step (a) may further include storing the media file loading command in a first shared area of the first memory.

In the step (b), when the media file loading command is stored from the main processor, the first memory generates a first interrupt signal and transmits the first interrupt signal to the storage control device. The method may further include accessing a first memory and receiving the loading command.

In the step (a), the media file loading command may include storage location information of the media file.

After the step (c), the storage control device transmits a file loading completion signal to the first memory when the media file completes the transfer to the third memory; And when the file loading completion signal is received, transmitting the execution command to execute the media processor to the third memory.

According to an embodiment of the present invention, since the media file is directly stored in the memory between the main processor and the media processor, the power consumption can be reduced.

In addition, according to an embodiment of the present invention, since there is no media file loaded into the main processor, the load of the main processor may be reduced.

1 is a block diagram schematically illustrating a mobile device according to an embodiment of the present invention;
2 is a block diagram illustrating a storage area of a first memory according to an embodiment of the present invention.
3 is a block diagram illustrating a storage area of a third memory according to an embodiment of the present invention.
4 is a flowchart sequentially illustrating a file loading method of a mobile device according to an embodiment of the present invention.

The present invention may be variously modified and have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail with reference to the accompanying drawings. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In describing the present invention, when it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, numerals (eg, first, second, etc.) used in the description process of the present specification are merely identification symbols for distinguishing one component from another component.

In addition, in the present specification, when one component is referred to as "connected" or "connected" with another component, the one component may be directly connected or directly connected to the other component, but in particular It is to be understood that, unless there is an opposite substrate, it may be connected or connected via another component in the middle.

Hereinafter, a mobile device and a file loading method according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically illustrating a mobile device according to an embodiment of the present invention, FIG. 2 is a block diagram schematically showing a first memory shown in FIG. 1, and FIG. 3 is shown in FIG. 1. A block diagram schematically showing the third memory.

1 to 3, a mobile device according to an embodiment of the present invention may include a main processor 100, a media processor 300, a first memory 400, a second memory 500, and a storage control device ( 200 and the third memory 600.

In detail, the main processor 100 is a central processing unit (CPU), and may perform system control such as executing an application or requesting data storage.

The media processor 300 is a microcontroller and may perform media related applications. The media processor 300 may perform media related applications such as movies, MP3s, videos, and photos. The media processor 300 may collectively execute multimedia processing such as image compression / extension or voice processing, and may reduce the load on the main processor 100.

The first memory 400 is a storage means for storing data and may include a volatile memory such as a dynamic random access memory (DRAM). The first memory 400 may be a dual port memory in which the main processor 100 and the storage control device 200 are commonly accessible. As illustrated in FIG. 2, the first memory 400 may include a main area 410, a first sharing area 420, and a storage area 430.

Referring to FIG. 2, the main area 410 may be accessed from the main processor 100, and files, data, and the like necessary for the main processor 100 may be stored.

The first sharing area 420 may access the main processor 100 to store a command, a file, and the like. The first sharing area 420 may read a command, a file, etc. stored and accessed by the storage control device 200 to perform a command.

The first sharing area 420 may generate an interrupt signal when a command, a file, or the like is stored. For example, when the media file loading command is stored in the main processor 100, the first interrupt signal may be generated and transmitted to the storage control device 200.

In addition, when a file to be stored in the second memory is temporarily stored in the main processor 100, the first sharing area 420 may generate and transmit an interrupt signal to the storage control device 200.

When the execution completion signal is transmitted from the storage control device 200, the first sharing area 420 may transmit a second interrupt signal to the main processor 100.

The storage area 430 is a storage area that can be accessed by the storage control device 200 and can store files required by the storage control device 200.

The second memory 500 is a storage means for storing data, and may include a nonvolatile flash memory. The second memory 500 may store an application file, a general document file, a media file, and the like. The second memory 500 is controlled by the storage control device 200. When the file is transmitted from the storage control device 200, the second memory 500 may store the file at a corresponding address.

In addition, the second memory 500 may store a media file to be executed in the media processor 300. Here, the media file may include an application file or a video, a photo, an MP3, or the like performed on the media file.

The third memory 600 is a memory that stores data and may include a volatile memory such as a DRAM. The third memory 600 may be a dual port memory that the main processor 100, the media processor 300, or the storage control device 200 can access in common. As illustrated in FIG. 3, the third memory 600 may include a main area 610, a second sharing area 630, and a media area 620.

The main area 610 may be accessed by the main processor 100, and may store files, data, and the like required by the main processor 100.

The second sharing area 630 may access the main processor 100 to store instructions, files, and the like. The second sharing area 630 may read the stored commands, files, and the like, which are accessed by the media processor 300 to execute the commands. In addition, the second sharing area 630 may store the media file in the storage control device 200.

The second sharing area 630 may generate an interrupt signal when a command, a file, or the like is stored. For example, when a media file execution command is stored in the main processor 100, a third interrupt signal may be generated and transmitted to the media processor 300.

In addition, when the execution completion signal is transmitted from the media processor 300, the second sharing area 630 may transmit an interrupt signal to the main processor 100.

The media area 620 is a storage area that can be accessed by the media processor 300 and can store files processed by the media processor 300.

The storage control device 200 may store a file in the second memory 500. The storage control apparatus 200 may store a file temporarily stored in the first memory 400 in the second memory 500.

The storage control device 200 may include a flash translation layer (FTL) and a memory access driver.

The FTL may perform address mapping processing of a file to be stored in the second memory 500. The FTL may store a file by mapping a logical address included in a storage command from the main processor 100 with a physical address of the second memory 500.

When the FTL receives the media file loading command from the main processor 100, the FTL maps a logical address included in the media file loading command to read the media file stored at the physical address of the second memory 500. The FTL may store the read media file in a shared area of the third memory 600.

The memory access driver may include a first memory access driver that may access the first memory 400, a flash access driver that may access the second memory 500, and a second memory that may access the third memory 600. It may include an access driver. The memory access driver may be responsible for interfacing with physically connected memories.

As described above, the storage control apparatus 200 may shorten the storage path of the media file to increase the media file loading speed of the media processor 300. In addition, load sharing of the main processor 100 may be reduced. In addition, since the storage control device 200 directly accesses the third memory 600 to store the media file, power consumption of the mobile device can be reduced.

4 is a flowchart sequentially illustrating a file loading method according to an embodiment of the present invention.

According to an embodiment of the present disclosure, a method of loading a file in a main memory may include storing a media file loading command in a first memory (S100), and receiving a media file loading command stored in a first memory in a storage control device from a second memory. Reading the corresponding media file (S200), storing the media file in the third memory in the storage control device (S300), and executing the media file by accessing the third memory in the media processor (S400). can do.

In detail, in operation S100 of storing a media file loading command in a first memory in a main processor, when information on a media file to be executed is input, the main processor 100 generates a media file loading command to generate a first memory 400. Save to (S100).

The media file loading command stored in the first memory 400 may be stored in the first sharing area 420 shared by the main processor 100 and the storage control device 200. In this case, the media file loading command may include storage location information of the media file, that is, a logical address of the media file.

When the media file loading command is stored from the main processor 100, the first memory 400 generates a first interrupt signal and transmits the first interrupt signal to the storage control apparatus 200. (S110) The storage control apparatus 200 may generate a first interrupt signal. When receiving the signal, the first memory 400 accesses a request for a media file loading command, and receives a media file loading command corresponding to the requested media file loading command (S120).

Subsequently, the storage control apparatus 200 searches a physical address of the second memory 500 by mapping a storage location of the media file included in the media file loading command. The storage control apparatus 200 reads a media file from the second memory 500 corresponding to the physical address (S200).

Subsequently, the storage control apparatus 200 transmits the read media file to the third memory 600. The storage control apparatus 200 accesses the second shared area of the third memory 600 by using an internal memory access driver, and stores the media file in the second shared area (S300).

Subsequently, when the media file completes the transfer to the third memory 600, the storage control apparatus 200 may transmit a file loading completion signal to the first memory 400 (S310).

When the file loading completion signal is stored, the first memory 400 may transmit a second interrupt signal to the main processor 100 (S320).

Subsequently, when the file loading completion signal is received, the main processor 100 transmits an execution command for executing the media processor 300 to the third memory 600 to store the media file execution command in the third memory. )

When the execution command is stored, the third memory 600 generates a third interrupt signal and transmits it to the media processor 300 (S340).

When the media processor 300 receives the third interrupt signal, the media processor 300 accesses the third memory 600 to receive an execution command and a media file stored in the third memory 600. Here, the media processor 300 may receive the media file corresponding to the execution command and execute the media file (S400).

Meanwhile, according to an embodiment of the present disclosure, if a media file execution command is stored in the main processor 100 after the media file is stored in the third memory 600, the media processor 300 accesses the third memory 600. The media file stored in the second sharing area 630 of the third memory 600 may be stored in the media area 620, and then the media file may be executed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: main processor
200: storage control unit
300: media processor
400: first memory
410: main area
420: first shared area
430: storage area
500: second memory
600: third memory
610: main area
620: media area
630: second sharing area

Claims (14)

delete A main processor for performing system control;
A media processor executing a media application by a media application execution request from the main processor;
A storage control device configured to perform a file save or file read command requested from the main processor;
A first memory to which the main processor and the storage control device are commonly connected;
A second memory connected to the storage control device to store a file; And
And a third memory in which the main processor, the media processor, and the storage control device access in common, and store at least one media file to be executed in the media processor.
When the storage control device receives a media file loading command from the main processor, the storage control device reads a media file corresponding to the media file loading command from the second memory and stores the media file in the third memory.
The first memory further includes a first storage area that the main processor and the storage control device access in common.
And the first storage area transmits a first interrupt signal to the storage control device when the media file loading command is stored.
A main processor for performing system control;
A media processor executing a media application by a media application execution request from the main processor;
A storage control device configured to perform a file save or file read command requested from the main processor;
A first memory to which the main processor and the storage control device are commonly connected;
A second memory connected to the storage control device to store a file; And
And a third memory in which the main processor, the media processor, and the storage control device access in common, and store at least one media file to be executed in the media processor.
When the storage control device receives a media file loading command from the main processor, the storage control device reads a media file corresponding to the media file loading command from the second memory and stores the media file in the third memory.
The media file loading command further includes address information of the media file stored in the second memory or memory information in which the media file is loaded.
The method of claim 3, wherein
The storage control device
When the transfer of the media file to the third memory is completed, the file transfer complete information is transmitted to the first memory,
The first memory is
And when the file transfer completion information is stored, transmitting a second interrupt signal to the main processor.
The method of claim 4, wherein
The main processor is
And when the second interrupt signal is transmitted, accessing the first memory to receive the file transfer completion information, and storing a media file execution command in the third memory.
The method of claim 5, wherein
And the third memory transmits a third interrupt signal to the media processor when the media file execution command is received.
The method according to claim 6,
The media processor
And upon receiving the third interrupt signal, access the third memory to load the media file corresponding to the media file execution command and the media file execution command to execute the media file.
The method according to any one of claims 2 to 7,
And the first memory and the third memory are volatile memory.
The method according to any one of claims 2 to 7,
And the second memory is a nonvolatile memory.
(a) storing a media file loading instruction in a first memory in a main processor;
(b) receiving a media file loading command stored in the first memory at a storage control device and reading the media file from a second memory;
(c) storing the media file in a third memory at the storage control device; And
(d) accessing the third memory and executing the media file in a media processor,
Step (a) is
And the media file loading command is stored in a first shared area of the first memory.
delete The method of claim 10,
Step (b) is
The first memory generates a first interrupt signal and transmits the first interrupt signal to the storage controller when the media file loading command is stored from the main processor.
The storage control device receiving the first interrupt signal accesses the first memory and receives the loading command.
The method of claim 10,
In step (a)
The media file loading command includes a storage location information of the media file.
The method of claim 10,
After step (c),
The storage control device transmitting a file loading completion signal to the first memory when the media file completes the transfer to the third memory; And
The main processor may further include transmitting an execution command for executing the media processor to the third memory when the file loading completion signal is received.

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