초록 ▼

A wireless computer system (30) is formed to have a host section (31) and a wireless hardware section (40). A first portion of a transmission frame is formed in system memory (36) of a host section (31) and a second portion of the transmission frame is formed in the wireless hardware section (40).

A wireless computer system (30) is formed to have a host section (31) and a wireless hardware section (40). A first portion of a transmission frame is formed in system memory (36) of a host section (31) and a second portion of the transmission frame is formed in the wireless hardware section (40). The wireless hardware section (40) begins transmitting the first transmission frame portion while downloading the second transmission frame portion from the system memory (36) into the wireless hardware section (40). Bus latencies are masked by at least overlapping transmitting the first portion of the transmit frame while downloading the second portion.

대표청구항 ▼

The invention claimed is: 1. A method of forming a transmit frame for communication over a wireless LAN having latency masking comprising: forming the wireless LAN to operate with a computer system having a host system and a wireless section wherein the host system has a system memory; forming the

The invention claimed is: 1. A method of forming a transmit frame for communication over a wireless LAN having latency masking comprising: forming the wireless LAN to operate with a computer system having a host system and a wireless section wherein the host system has a system memory; forming the wireless section to generate a first portion of the transmit frame; forming the host system to build a second portion of the transmit frame in the system memory, wherein this forming includes forming the host system to build a software frame queue having at least two physical layer convergence protocol (PLCP) header sections for at least two different encoding schemes; and forming the wireless section to initiate transmitting the first portion of the transmit frame onto a wireless channel and to initiate transferring the second portion of the transmit frame from the system memory into the wireless section. 2. The method of claim 1 further including forming the wireless section to select one PLCP header section of the at least two PLCP header sections. 3. In a wireless computer system having a host portion and a wireless section, wherein the host portion has a system memory, a method comprising: generating a first portion of a transmit frame in the wireless section; building a second portion of the transmit frame in the system memory; wirelessly transmitting the first portion of the transmit frame on a wireless network; concurrent with the wirelessly transmitting, transferring the second portion of the transmit frame from the system memory to the wireless section; further building a first part of a network-critical task in the wireless section; and further building a second part of the network-critical task in the host portion, and wherein the second part includes at least a portion of the first part. 4. The method as recited in claim 3 wherein building the second portion of the transmit frame comprises storing the second portion in a link-list frame queue in the system memory. 5. In a wireless computer system having a host portion and a wireless section, wherein the host portion has a system memory, a method comprising: generating a first portion of a transmit frame in the wireless section; building a second portion of the transmit frame in the system memory; wirelessly transmitting the first portion of the transmit frame on a wireless network; and concurrent with the wirelessly transmitting, transferring the second portion of the transmit frame from the system memory to the wireless section, wherein building the second portion of the transmit frame in the system memory includes generating at least two physical layer convergence protocol (PLCP) header sections for at least two different encoding schemes. 6. The method as recited in claim 5 further comprising selecting one PLCP header section of the at least two PLCP header sections in the wireless section. 7. An apparatus comprising: a host interface configured to communicate with a host, wherein the host includes a system memory; and circuitry coupled to the host interface and configured to generate a first portion of a transmit frame and wirelessly transmit the first portion on a wireless network; wherein the system memory stores a remaining portion of the transmit frame during the generation of the first portion, and wherein the circuitry is configured to communicate through the host interface to transfer the remaining portion from the system memory concurrent with wirelessly transmitting the first portion, and wherein the remaining portion includes at least a subportion of the first portion. 8. The apparatus as recited in claim 7 wherein the circuitry is further configured to wirelessly transmit the remaining portion subsequent to the first portion. 9. An apparatus comprising: a host interface configured to communicate with a host, wherein the host includes a system memory; and circuitry coupled to the host interface and configured to generate a first portion of a transmit frame and wirelessly transmit the first portion on a wireless network; wherein the system memory stores a remaining portion of the transmit frame during the generation of the first portion, and wherein the circuitry is configured to communicate through the host interface to transfer the remaining portion from the system memory concurrent with wirelessly transmitting the first portion, and wherein the remaining portion of the transmit frame in the system memory includes at least two physical layer convergence protocol (PLCP) header sections for at least two different encoding schemes. 10. The apparatus as recited in claim 9 wherein the circuitry is configured to select one PLCP header section of the at least two PLCP header sections in the wireless section for wireless transmission. 11. A computer system comprising: a host portion comprising a system memory; and a wireless section coupled to the host portion, wherein the wireless section is configured to generate a first portion of a transmit frame in the wireless section, and wherein the system memory is configured to store a second portion of the transmit frame in the system memory, and wherein the wireless section is configured to wirelessly transmit the first portion of a transmit frame on a wireless network and to concurrently transfer the second portion of the transmit frame from the system memory to the wireless section, and wherein the wireless section is further configured to build a first part of a network-critical task, and wherein a second part of the network-critical task is stored in the system memory, and wherein the second part includes at least a portion of the first part. 12. The computer system as recited in claim 11 wherein the second portion of the transmit frame is stored in a link-list frame queue in the system memory. 13. A computer system comprising: a host portion comprising a system memory; and a wireless section coupled to the host portion, wherein the wireless section is configured to generate a first portion of a transmit frame in the wireless section, and wherein the system memory is configured to store a second portion of the transmit frame in the system memory, and wherein the wireless section is configured to wirelessly transmit the first portion of a transmit frame on a wireless network and to concurrently transfer the second portion of the transmit frame from the system memory to the wireless section, and wherein the second portion of the transmit frame includes at least two physical layer convergence protocol (PLCP) header sections for at least two different encoding schemes. 14. The computer system as recited in claim 13 wherein the wireless section is configured to select one PLCP header section of the at least two PLCP header sections.