Electrical computers and digital data processing systems: input/ – Intrasystem connection – Bus access regulation
Reexamination Certificate
1999-06-12
2002-03-26
Dharia, Rupal (Department: 2181)
Electrical computers and digital data processing systems: input/
Intrasystem connection
Bus access regulation
C710S107000, C710S110000, C710S116000, C710S119000, C710S240000
Reexamination Certificate
active
06363447
ABSTRACT:
BACKGROUND
FIELD OF THE INVENTION
The present invention relates to buses in computer systems. More particularly, the present invention relates to an apparatus for selectively encoding bus grant lines to reduce I/O pin requirements.
Related Art
Much of the interconnection circuitry in a microprocessor-based computer system is typically aggregated in a “core logic” unit that couples the microprocessor to other parts of the computer system, such as a memory, a peripheral bus and a graphics controller.
Providing such interconnection capability can require a large number of I/O pins to accommodate all of the signal lines. Some computer systems deal with this I/O pin problem by partitioning interconnection circuitry across multiple chips. For example, a typical personal computer system includes a north bridge chip, a south bridge chip, a super I/O chip and an I/O APIC chip to support interconnections between the microprocessor and other components within the computer system. Using multiple chips is expensive because the multiple chips must be integrated together within a circuit board. This leads to additional expense in manufacturing circuit boards and maintaining inventories of each type of chip.
It is preferable to integrate 41 of the interconnection circuitry in a computer system into a single semiconductor chip. However, the I/O pin limitations on a single chip can present problems. For example, a single core logic chip that includes all of a computer system's interconnection circuitry requires interfaces for a processor bus, a memory bus, an AGP bus for a graphics controller and a PCI bus for peripheral devices. Providing I/O pins for all of these interfaces requires many hundreds of I/O pins, especially if any of the busses support 64 bit transfers. Given present packing technology, this I/O pin requirement can easily exceed the I/O pin limitations of a single semiconductor chip.
Note that many bus signals lines are not utilized as well as they could be. In particular bus grant lines and bus request lines convey very little information. Recall that bus request lines are used by devices on the bus to request control of the bus from a bus arbiter in order to perform bus accesses. Bus grant lines are used by the bus arbiter to grant control of the bus to a requester. In a typical bus, such as the PCI bus, there is one request line and one grant line for each master device on the bus. For example, the PCI bus supports up to seven bus request lines and seven bus grant lines. Note that since the bus arbiter will only grant control of the bus to one device at a time, only one of the bus grant lines will be active at any one time. Hence, bus grant lines typically convey very little information.
In order to conserve on the number of I/O pins used, typical core logic chips provide a limited number of request lines and grant lines. This limits the number of bus master devices that can be supported. Unfortunately, this means that typical core logic chips cannot be used in other computer systems, such as servers, that must support a larger number of bus master devices.
What is needed is a method and an apparatus that allows a number of bus grant lines to be transferred across a smaller number I/O pins.
SUMMARY
One embodiment of the present invention provides an apparatus that selectively encodes bus grant lines to reduce I/O pin requirements. This apparatus includes a semiconductor chip with bus arbitration circuit. A number of grant lines emanate from the bus arbitration circuit. An encoder circuit encodes the grant lines into a smaller number of encoded grant lines. A selector circuit selects outputs from between the encoded grant lines and a first subset of grant lines. These outputs pass through output pins off of the semiconductor chip. During a first mode of operation, the first subset of grant lines is driven through the plurality of output pins. During a second mode of operation, the encoded grant lines are driven through the output pins. A variation on the above embodiment includes a number of bus request lines, which are divided into a first subset and a second subset. The first subset of request lines feeds through a number of input pins into the bus arbitration circuit. During the first mode of operation, the second subset of request lines feeds from off of the semiconductor chip through a number of I/O pins and bidirectional buffers into the bus arbitration circuit. During the second mode of operation, the second subset of grant lines feeds from the bus arbitration circuit, through the bidirectional buffers and I/O pins and off of the semiconductor chip.
Thus, the present invention facilitates encoding of bus grant lines in a first mode of operation to support additional bus master devices. It also facilitates a second mode of operation in which bus grant lines are not encoded. This second mode of operation reduces cost for systems that do not require additional bus master devices because the second mode does not require external decoding circuitry to decode the bus grant lines.
REFERENCES:
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patent: 5113514 (1992-05-01), Albonesi et al.
patent: 6018807 (2000-01-01), Larson
patent: 6026046 (2000-02-01), Larson
patent: 6029217 (2000-02-01), Arimilli et al.
patent: 6286068 (2001-09-01), Arimilli et al.
Dharia Rupal
Micro)n Technology, Inc.
Park Vaughan & Fleming LLP
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