Electrical computers and digital data processing systems: input/ – Intrasystem connection – Protocol
Reexamination Certificate
2000-03-15
2004-01-06
Rinehart, Mark H. (Department: 2189)
Electrical computers and digital data processing systems: input/
Intrasystem connection
Protocol
C710S008000
Reexamination Certificate
active
06675243
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to communication protocols, and more particularly to communication protocols that connect computer systems to peripheral devices.
2. Description of the Related Art
A basic component of a host computer system is the peripheral device. Peripheral devices come in many forms, such as, hard drives, CD-ROMs, optical discs, and the like. To enable communication between the host computer system and its peripheral devices, data transfer protocols such as IDE and SCSI are used. As is well known, the SCSI protocol is designed for high bandwidth and performance demanding environments due to its superior data transfer rates. On the other hand, the IDE protocol is designed to be a lower cost alternative to the SCSI protocol. Thus, computer systems that are designed with a budget in mind tend to implement IDE peripheral devices, but suffer in terms of performance.
FIG. 1
illustrates a typical host computer system
12
that implements peripheral devices
14
and
18
. As shown, peripheral device
14
is an internal peripheral device, which can be either IDE or SCSI. Peripheral device
18
, on the other hand, is an external device. Because IDE devices implement parallel data transfer buses, IDE peripheral devices are generally manufactured in the form of internal devices. Consequently, in order to connect an external peripheral device, such as device
18
to the host computer system
12
, a host adapter needs to be installed into the host computer system
12
. To implement external devices, a SCSI host adapter can be connected to the host computer system
12
by way of a PCI bus. The SCSI host adapter can then allow communication over a SCSI bus
16
to the peripheral device
18
, which also needs to be a SCSI device. Although, the implementation of SCSI devices can add cost to the system, thus discouraging cost sensitive consumers from implementing external peripheral devices.
In order to maintain cost at a minimum, most computer motherboards come integrated with two IDE connectors. As is well known, each IDE connector can then support a short and bulky IDE parallel cable that itself has two IDE connectors. Each of the two IDE connectors can then connect up to a particular internal IDE peripheral device. For each pair of IDE devices, one device is designated as a master device and the other is designated as a slave device. This designation enables a particular IDE hard drive that is connected to a master connection to be designated as a boot device. Thus, the master IDE device, which is in the form of a hard drive is typically the boot device that contains an operating system (OS) image. Following this implementation, such computer systems can add more internal peripheral devices.
As a result, the IDE protocol provides a low end solution that has limitations on performance such as speed, cable length, and extendibility to external devices. In view of the foregoing, there is a need for a more robust protocol that can deliver improved communication performance, can be extended to external devices, provides for longer and less bulky cable lengths and is a cost sensitive solution that enables the manufacturer of such devices at cost structures that are about equivalent to today's low end IDE solutions.
SUMMARY OF THE INVENTION
Broadly speaking, the present invention fills these needs by providing an advanced serial protocol (ASP) that defines a more robust data transmission environment for communication between host computers and peripheral devices. It should be appreciated that the present invention can be implemented in numerous ways, including as a process, an apparatus, a system, a device, a method, or a computer readable medium. Several inventive embodiments of the present invention are described below.
In one embodiment, a peripheral device having a protocol communication chip is disclosed. The protocol communication chip being configured to manage communication between the peripheral device and a host computer over a serial bus. The protocol communication chip includes a bus interface and a link control and status register. The link control status register is provided for setting link parameters, and is configured to be either read or written by the host computer by the transmission of a 16 byte packet having a DataType
0
. The 16 byte packet being an OUTDATA packet for control and an INSTART packet for status. The peripheral device being configured to receive device command information from the host computer using a DataType
1
packet, and host computer being configured to access data resident on the peripheral devices using a DataType
2
packet.
In another embodiment, a peripheral device having a protocol communication chip is disclosed. The protocol communication chip is configured to manage communication between the peripheral device and a host computer over a serial bus. The communication chip includes a bus interface for connection to the host computer over the serial bus and a link control and status register for setting link parameters of the peripheral device. The link control and status register is configured to be either read or written by the host computer by the transmission of one of an OUTDATA packet for control and an INSTART packet for status.
In yet a further embodiment, a peripheral device having a protocol communication chip is disclosed. The protocol communication chip is configured to manage communication between the peripheral device and a host computer over a serial bus. The communication chip includes a bus interface for connection to the host computer over the serial bus. The serial bus having a first differential pair for data, a second differential pair for strobe, and a pair for ground. A link control and status register is integrated into the protocol communication chip. The link control and status register is configured for setting link parameters of the peripheral device, and is configured to be either read or written by the host computer. The peripheral device being one of a hard disk drive, a floppy disk drive, a tape drive, a CD-ROM drive, and an optical disk drive, and the peripheral device being configured to receive commands that are one of ATA commands and ATAPI commands and are encapsulated into packets.
The advantages of the present invention are numerous. Most notably, the ASP bus is specified to be an industry standard extension to the PC architecture which will be a replacement or alternative for the IDE bus. ASP will provide higher speeds and more fault tolerant operations while not requiring a complete change to the current IDE command structure. The ASP provides exceptional ease of use for PC peripheral expansion and is a low-cost solution that supports fast transfer rates. ASP is capable of being integrated in commodity device technology, and provides a standard interface capable of quick diffusion into existing products. ASP is designed to be an extension of the IDE protocol and ATA/ATAPI command set for the attachment of block oriented devices.
ASP is also extendable in terms of the speed that can be achieved. Today, IDE can only operate to 16 MBps (33 MBps is defined but has not yet been used). Some embodiments of the ASP will enable link communication up to about 960 MBps without adversely affecting the protocol. Also, ASP will provide some performance features such as overlapped commands to different devices, DMA transfers only and dynamic allocation of bandwidth to faster devices when needed. Also ASP provides more robust reliability with the inclusion of CRC checking on the data and true plug and play capability.
REFERENCES:
patent: 5537626 (1996-07-01), Kraslavsky et al.
patent: 5644729 (1997-07-01), Amini et al.
patent: 5694555 (1997-12-01), Morriss et al.
patent: 6044428 (2000-03-01), Rayabhari
patent: 6058440 (2000-05-01), Bloch et al.
patent: 6081852 (2000-06-01), Baker
patent: 6115771 (2000-09-01), Born
patent: 6128673 (2000-10-01), Aronson et al.
patent: 6185620 (2001-02-01), Weber et al.
patent: 6279049 (2001-08-01), Kang
patent:
Bastiani Vincent J.
Kwan Tony
Adaptec, Inc.
Huynh Kim T.
Martine & Penilla LLP
Rinehart Mark H.
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