Electrical computers and digital data processing systems: input/ – Input/output data processing – Input/output command process
Reexamination Certificate
2000-06-29
2004-11-09
Gaffin, Jeffrey (Department: 2182)
Electrical computers and digital data processing systems: input/
Input/output data processing
Input/output command process
C710S048000, C710S049000, C710S064000, C710S074000, C710S033000, C711S111000, C711S112000, C711S114000
Reexamination Certificate
active
06816916
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates generally to data storage systems, and more particularly to data storage systems having redundancy arrangements to protect against total system failure in the event of a failure in a component or subassembly of the storage system.
As is known in the art, large host computers and servers (collectively referred to herein as “host computer/servers”) require large capacity data storage systems. These large computer/servers generally includes data processors, which perform many operations on data introduced to the host computer/server through peripherals including the data storage system. The results of these operations are output to peripherals, including the storage system.
One type of data storage system is a magnetic disk storage system. Here a bank of disk drives and the host computer/server are coupled together through an interface. The interface includes “front end” or host computer/server controllers (or directors) and “back-end” or disk controllers (or directors). The interface operates the controllers (or directors) in such a way that they are transparent to the host computer/server. That is, data is stored in, and retrieved from, the bank of disk drives in such a way that the host computer/server merely thinks it is operating with its own local disk drive. One such system is described in U.S. Pat. 5,206,939, entitled “System and Method for Disk Mapping and Data Retrieval”, inventors Moshe Yanai, Natan Vishlitzky, Bruno Alterescu and Daniel Castel, issued Apr. 27, 1993, and assigned to the same assignee as the present invention.
As described in such U.S. Patent, the interface may also include, in addition to the host computer/server controllers (or directors) and disk controllers (or directors), addressable cache memories. The cache memory is a semiconductor memory and is provided to rapidly store data from the host computer/server before storage in the disk drives, and, on the other hand, store data from the disk drives prior to being sent to the host computer/server. The cache memory being a semiconductor memory, as distinguished from a magnetic memory as in the case of the disk drives, is much faster than the disk drives in reading and writing data.
The host computer/server controllers, disk controllers and cache memory are interconnected through a backplane printed circuit board. More particularly, disk controllers are mounted on disk controller printed circuit boards. The host computer/server controllers are mounted on host computer/server controller printed circuit boards. And, cache memories are mounted on cache memory printed circuit boards. The disk directors, host computer/server directors, and cache memory printed circuit boards plug into the backplane printed circuit board. In order to provide data integrity in case of a failure in a director, the backplane printed circuit board has a pair of buses. One set the disk directors is connected to one bus and another set of the disk directors is connected to the other bus. Likewise, one set the host computer/server directors is connected to one bus and another set of the host computer/server directors is directors connected to the other bus. The cache memories are connected to both buses. Each one of the buses provides data, address and control information.
The arrangement is shown schematically in FIG.
1
. Thus, the use of two buses B
1
, B
2
provides a degree of redundancy to protect against a total system failure in the event that the controllers or disk drives connected to one bus, fail. Further, the use of two buses increases the data transfer bandwidth of the system compared to a system having a single bus. Thus, in operation, when the host computer/server
12
wishes to store data, the host computer
12
issues a write request to one of the front-end directors
14
(i.e., host computer/server directors) to perform a write command. One of the front-end directors
14
replies to the request and asks the host computer
12
for the data. After the request has passed to the requesting one of the front-end directors
14
, the director
14
determines the size of the data and reserves space in the cache memory
18
to store the request. The front-end director
14
then produces control signals on one of the address memory busses B
1
, B
2
connected to such front-end director
14
to enable the transfer to the cache memory
18
. The host computer/server
12
then transfers the data to the front-end director
14
. The front-end director
14
then advises the host computer/server
12
that the transfer is complete. The front-end director
14
looks up in a Table, not shown, stored in the cache memory
18
to determine which one of the back-end directors
20
(i.e., disk directors) is to handle this request. The Table maps the host computer/server
12
addresses into an address in the bank
14
of disk drives. The front-end director
14
then puts a notification in a “mail box” (not shown and stored in the cache memory
18
) for the back-end director
20
, which is to handle the request, the amount of the data and the disk address for the data. Other back-end directors
20
poll the cache memory
18
when they are idle to check their “mail boxes”. If the polled “mail box” indicates a transfer is to be made, the back-end director
20
processes the request, addresses the disk drive in the bank
22
, reads the data from the cache memory
18
and writes it into the addresses of a disk drive in the bank
22
.
When data is to be read from a disk drive in bank
22
to the host computer/server
12
the system operates in a reciprocal manner. More particularly, during a read operation, a read request is instituted by the host computer/server
12
for data at specified memory locations (i.e., a requested data block). One of the front-end directors
14
receives the read request and examines the cache memory
18
to determine whether the requested data block is stored in the cache memory
18
. If the requested data block is in the cache memory
18
, the requested data block is read from the cache memory
18
and is sent to the host computer/server
12
. If the front-end director
14
determines that the requested data block is not in the cache memory
18
(i.e., a so-called “cache miss”) and the director
14
writes a note in the cache memory
18
(i.e., the “mail box”) that it needs to receive the requested data block. The back-end directors
20
poll the cache memory
18
to determine whether there is an action to be taken (i.e., a read operation of the requested block of data). The one of the back-end directors
20
which poll the cache memory
18
mail box and detects a read operation reads the requested data block and initiates storage of such requested data block stored in the cache memory
18
. When the storage is completely written into the cache memory
18
, a read complete indication is placed in the “mail box” in the cache memory
18
. It is to be noted that the front-end directors
14
are polling the cache memory
18
for read complete indications. When one of the polling front-end directors
14
detects a read complete indication, such front-end director
14
completes the transfer of the requested data which is now stored in the cache memory
18
to the host computer/server
12
.
The use of mailboxes and polling requires time to transfer data between the host computer/server
12
and the bank
22
of disk drives thus reducing the operating bandwidth of the interface.
SUMMARY OF THE INVENTION
In accordance with the present invention, a system interface is provided. Such interface includes a plurality of first directors, a plurality of second directors, a data transfer section and a message network. The data transfer section includes a cache memory. The cache memory is coupled to the plurality of first and second directors. The messaging network operates independently of the data transfer section and such network is coupled to the plurality of first directors and the plurality of second directors. The first and second directors control data transfer between the f
Black David
MacArthur Stephen
Vishlitzky Natan
Wheeler Richard
EMC Corporation
Gaffin Jeffrey
Nguyen Mike
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