摘要:
A computer is provided having a bus interface unit which is coupled between a peripheral bus and a dedicated graphics bus. The graphics bus can be linked to the bus interface unit by an AGP, while the peripheral bus can be linked to the bus interface unit by a PCI. Arbitration for the AGP bus can determine when mastership is granted to an AGP master (i.e., graphics accelerator/controller). Until mastership is granted, the AGP target is powered down to a low power state where power consumption within the bus interface unit is minimal. It is not until the AGP master achieves mastership that the graphics target (core logic and memory controller) within the bus interface unit is placed in an operational (fully powered) state. The computer therefore employs a bus interface unit which can be dynamically switched from a high power state to a low power state and vice versa, depending upon accesses to the graphics target.
摘要:
A computer system having a core logic chipset that functions as a bridge between an Accelerated Graphics Port ("AGP") bus device such as a graphics controller, and a host processor and computer system memory wherein a Graphics Address Remapping Table ("GART table") is used by the core logic chipset to remap virtual memory addresses used by the AGP graphics controller into physical memory addresses that reside in the computer system memory The GART table enables the AGP graphics controller to work in contiguous virtual memory address space, but actually use non-contiguous blocks or pages of physical system memory to store textures, command lists and the like. The GART table is made up of a plurality of entries, each entry comprising an address pointer to a base address of a page of graphics data in memory. The core logic chipset may cache a subset of the most recently used GART table entries to increase AGP performance when performing the address translation. When a GART table entry is not found in the cache, a memory access is required to obtained the needed GART table entry. There are two GART table entries in each quadword returned in toggle mode of the cacheline of memory information returned from the memory read access. At least one quadword (two GART table entries) are stored in the cache each time a memory access is required because of a cache miss.
摘要:
A computer system having a core logic chipset that functions as a bridge between an Accelerated Graphics Port ("AGP") bus device such as a graphics controller, and a host processor and computer system memory wherein a Graphics Address Remapping Table ("GART table") is used by the core logic chipset to remap virtual memory addresses used by the AGP graphics controller into physical memory addresses that reside in the computer system memory. The GART table enables the AGP graphics controller to work in contiguous virtual memory address space, but actually use non-contiguous blocks or pages of physical system memory to store textures, command lists and the like. The GART table is made up of a plurality of entries, each entry comprising an address pointer to a base address of a page of graphics data in the computer system physical memory, and feature flags that may be used to customize the associated page of graphics data. One of the feature flags is used as a link bit for each GART table entry such that when the core logic chipset reads selected ones of the GART table entries stored in the system memory, it stores a first one of the selected ones in its cache memory and determines if the link bit thereof is set. If the link bit of the first one of the selected ones is set then a next one of the selected ones is stored in the cache memory and if the link bit thereof is set then a subsequent one of the selected ones is stored in the cache memory until one of the link bits thereof is determined not to be set.
摘要:
A computer system having a core logic chipset that functions as a bridge between an Accelerated Graphics Port ("AGP") bus device such as a graphics controller, and a host processor and computer system memory wherein a Graphics Address Remapping Table ("GART table") is used by the core logic chipset to remap virtual memory addresses used by the AGP graphics controller into physical memory addresses that reside in the computer system memory. The GART table enables the AGP graphics controller to work in contiguous virtual memory address space, but actually use non-contiguous blocks or pages of physical system memory to store textures, command lists and the like. The GART table is made up of a plurality of entries, each entry comprising an address pointer to a base address of a page of graphics data in memory, and feature flags that may be used to customize the associated page. The core logic chipset may cache a subset of the most recently used GART table entries to increase AGP performance when performing the address translation. A GART cache entry control register is used by an application programming interface, such as a GART miniport driver, to indicate to the core logic chipset that an individual GART table entry in the chipset cache should be invalidated and/or updated. The core logic chipset may then perform the required invalidate and/or update operation on the individual GART table entry without having to flush or otherwise disturb the other still relevant GART table entries stored in the cache.
摘要:
A dual-master data storage interface is disclosed which flexibly configures and connects data storage drives in the portable computer to optimize performance when the portable computer is operating in a stand-alone mode and to optimize accessibility to additional data storage drives when the portable computer is docked with an expansion unit. When the portable computer operates as a stand-alone unit (i.e., not docked to the expansion unit), each drive on the portable is configured to operate as a master drive to optimize performance. When the portable computer docks with the expansion unit, the first channel on the portable computer is connected via switches to both drives of the portable computer, while the second channel on the portable computer is disconnected. Further, the first data storage drive is configured as a master and the second data storage drive is configured as a slave drive on the portable computer side. Correspondingly, the drives located on the expansion base unit are reconfigured and remapped as master and slave drives on the second channel on the expansion base unit, while the first channel on the expansion base unit is disconnected.
摘要:
Hardware logic within a host bridge that connects a system bus to a peripheral bus using PCI bus architecture or a peripheral bus that uses a bus architecture similar to PCI. The hardware optimizes the speed at which data transfers are accomplished between the buses while translating the data transfers between the different architectures of the two buses.
摘要:
A portable computer can be “hot” docked to one or more expansion devices, such as a drive wedge and a port replicator. As such, the expansion devices can be connected to and disconnected from the portable computer while portable computer is powered on and fully operational. The portable computer includes control logic that detects when an expansion device is connected to or disconnected from the portable computer and asserts an SMI or equivalent interrupt signal to the computer's CPU to initiate a sequence of events by which the computer determines whether an expansion device has been connected or disconnected. If the CPU determines that the expansion device has been connected to the computer, the CPU appropriately reconfigures itself to communicate with the expansion device. If the expansion device is disconnected, the CPU also appropriately reconfigures itself to preclude communications with the disconnected device.
摘要:
A method and system for improving bus-to-bus data transfers in a multi-bus computer system is provided. The system includes a system bus having a slave device attached thereto, a peripheral bus having a master device attached thereto, and a host bridge connecting the two buses. The system bus permits burst read transfers of data stored in the slave device, wherein a single address phase is followed by several data phases, but only if the first address corresponds to a prescribed system bus boundary. The peripheral bus is not subject to address boundary limitations, instead permitting burst read transfers beginning at any address. The host bridge includes logic for decoding a first address asserted by the master device to determine if it corresponds to a system bus boundary. If it does not, the logic commences a first read pre-fetch non-burst transfer of a first set of data stored in the slave device beginning at the first address and ending at a system bus boundary, and temporarily stores this first set of data in a buffer. The logic then commences a second read pre-fetch burst transfer of a second set of data stored in the slave device corresponding to data stored between system bus boundaries, and temporarily stores this second set of data in the buffer, so that both of the temporarily stored first and second sets of data may be read by the master device over the peripheral bus in a single burst read transfer.
摘要:
A computer system having a core logic chipset that interconnects a processor(s), a system memory and peripheral device agents. The core logic chipset has a programmable memory access arbiter that may be programmed to optimize accesses by the computer system processor(s) and agents to the system memory for best computer system performance. The memory access arbiter may be programmed specifically for each system agent. An access count register may be incorporated into the core logic chipset wherein each system agent may be represented by a portion of the access count register. The values programmed into the portions of the access count register determine how many memory accesses the associated agent may take before another agent is granted a memory access, and how many cachelines may be transferred during a memory access.
摘要:
A computer system having a core logic chipset that functions as a bridge between an Accelerated Graphics Port ("AGP") bus device such as a graphics controller, and a host processor and computer system memory wherein a Graphics Address Remapping Table ("GART table") is used by the core logic chipset to remap virtual memory addresses used by the AGP graphics controller into physical memory addresses that reside in the computer system memory. The GART table enables the AGP graphics controller to work in contiguous virtual memory address space, but actually use non-contiguous blocks or pages of physical system memory to store textures, command lists and the like. Contiguous virtual memory address space must be allocated for the AGP device within the addressable memory space of the computer system, typically 4 gigabytes using 32 bit addressing. The required amount of virtual memory address space for AGP is determined from the AGP device and the information is put into a register of the core logic so that the computer system software may allocate the required amount of memory and assign a base address thereto during computer system startup or POST.