SAS
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SAS (Serial Attached SCSI)
LSI SAS (Serial Attached SCSI) ICs extend 20 years of SCSI technology experience to next-generation, enterprise-class products, providing high performance, scalability, flexibility, and RAID capability. As this latest evolution of SCSI takes hold, LSI will continue to lead the way, providing SAS connectivity for the most demanding applications
SAS1064
The LSISAS1064 controller provides 1.5 and 3Gb/s data transfer rates per port and enables integrated RAID solutions in storage environments including workstations and blade servers.
SAS1068
The LSISAS1068 controller provides 1.5 and 3Gb/s data transfer rates per port and enables integrated RAID solutions in storage environments including servers, workstations.
SAS1064E
The LSISAS1064E is a four-port 3Gb/s SAS (Serial Attached SCSI) controller that is based on the Fusion-MPT™ (message passing technology) architecture and provides an eight-lane PCI Express interface.
SAS1068E
The LSISAS1068E is an eight-port 3Gb/s Serial Attached SCSI (SAS) controller that is based on the Fusion-MPT architecture and provides an eight-lane PCI Express interface.
SAS1078
The LSI SAS1078 leverages the company's ROC expertise and SAS leadership, providing OEM customers with unsurpassed performance and data protection in a single-chip solution. The LSI SAS1078 integrates several industry-leading technologies, including the Fusion-MPT™ (Message Passing Technology) architecture, PCI Express®, SAS, PowerPC, and RAID 6 which provide high value and performance.
SASx12A
The LSISASx12A is a 12-port, 3 Gb/s SAS expander that supports 1.5 and 3Gb/s SAS and SATA data transfer rates per port and is pin compatible with the LSISASx12 for ease of migration.
SASx36
The LSISASx36 is a 36-port, 3Gb/s Serial Attached SCSI (SAS) expander with an integrated ARM processor for Enclosure Management and extended SAS SMP functions, and provides large storage environments the ability to connect multiple targets and initiators through a switched device for scalability and fault-tolerant path-redundancy to improve system reliability.
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