Intel SSD Solid State Drives Michael Vierheilig Sales Manager LPIA - EMEA
Performance Solid State-Drive (SSD) Market Segmentation Intel High-Performance SATA SSD technology Performance Solid State Drives Ultimate Performance, High Capacity, Ruggedized, Assured Reliability Removable Drives USB/SD/CF Low Cost, Lower Capacity, MLC, Limited Reliability Testing, Portable & Disposable Value Solid State Drives Reliability Over Removable, Strong Performance, Low Power, Higher Capacity Intel Z-P140 PATA SSD Intel Z-P230 PATA SSD Intel Z-U130 USB SSD Cost Intel Confidential
Intel Value Solid Value Solid-State State Drives Intel Z-P140 PATA SSD Value Solid State Drives Reliability Over Removable, Strong Performance, Low Power, Higher Capacity Intel Z-P230 PATA SSD Intel Z-U130 USB SSD Intel Z-P140 PATA SSD: Ultra-Small, Low-Power and Rugged, with the Right Features and Performance for Mobile Internet Devices, Digital Entertainment and Embedded Applications Intel Z-P230 PATA SSD: Cost-effective and flexible, solid-state state storage with an industry-standard standard IDE interface, and the Right Features and Performance for Basic Notebooks Intel Z-U130 USB SSD: Rugged, solid-state state storage with an industry-standard standard interface, and the Right Features and Performance for Server, Entry Desktops/Notebooks & Embedded
Intel Z-U130 USB Solid-State Drive Delivering a solution Right Fit industry-standard standard USB interface Standard & low-profile connectors; board mount 36.9 x 26.6 x 9.6mm ; 5.9mm (low-profile) Beneath floor cost of HDDs; ; flexible modularity Right Capacity server boot & emerging markets 1, 2, 4 GB Most operating systems/kernels fit in 1 or 2GB Headroom for Apps and Data Right Performance Speed and reliability Fast to boot/load/apps up to 32/24MB/s R/W Single-level level cell (SLC) for 100k P/E cycle endurance 100% solid state: no moving parts; 5MHr MTBF
Intel Z-U130 Value SSD Performance 35 100 Performance (MB/s) 30 25 20 15 10 5 100+ IOPS * 90 80 70 60 50 40 30 20 10 File Access Probability (typical computing usage) 0 4 8 16 32 64 128 256 512 1000 File Size (KB) Probability HDD Access Time Value SSD Read 0 Beats HDD in Common File Accesses *IOPs=4KB file with 2 reads, 1 write
Intel Z-P140 PATA Solid-State State Drive Ultra-Small, Low-Power and Rugged, with the Right Features and Performance for Mobile Internet Devices, Digital Entertainment and a Embedded Applications
Intel Z-P140 SFF Solid State Drive Product: PATA SSD with Intel NAND flash memory Based on SLC Flash Densities: 2GB and 4GB extendable to 16GB Reduce space & weight Dimensions: 12x18x1.8mm Weight: only 0.6g Product Specs: 40 MB/s Read & 30 MB/s Write - Fast boot and System Performance with UDMA5 functionality Standby Power <1mW Active Power <90mA 2.5Mh MTBF Extended Temperature Range -40 C +85 C C (4, 8, 16 GB variants) Right Fit: smallest form factor Right Capacity: meets storage capacity for embedded systems Right Solution: low-power and solid-state state reliability
Why PATA SSD vs HDD? Space Savings Improved Performance 400x Smaller 75x Lighter 3.3x Faster Power on to Ready Z-P140 vs.hdd* 2x More Reliable (MTBF) 2x More Rugged (Shock) 125x Lower Standby Power Increased Reliability Enhanced Battery Life *Other names and brands may be claimed as the property of others
Intel Z-P230 PATA Modular SSD Delivering an entry level, low cost Solution Right Fit industry-standard standard PATA (IDE) interface Standard 40-pin ZIF connector 54 x 4 x 38mm (half the footprint of a 1.8 HDD) Multi-level level cell (MLC) for cost-effectiveness Beneath floor cost of HDDs; ; flexible modularity Right Capacity Basic NB & emerging markets 4 & 8 GB Q3 08; 16/32GB capable (soliciting input) Most operating systems fit in 1 or 2GB (Linux/XP) Headroom for Apps and Data Right Performance Speed, power, & reliability Access up to 35/7 MB/s R/W 150mW idle and 300mW active power (typical) 100% solid state: no moving parts; 2MHr MTBF
LAN Devices for Intel Atom Processor Platform
Intel 82574L/IT Gigabit Ethernet Controller Low Power and Small Form Factor <1W GbE and <500mW 10/100 9x9 QFN, with internal voltage regulation Value & Entry Low cost - 10/100 price for a GbE controller Embedded 7 year Life Support Industrial Temperature version available Performance Designed for multicore processors (MSI-X, RSS, Multi Qs) High bandwidth management interface (NC-SI) Embedded Features Jumbo frames 802.1as AV Bridging Print Imaging Infotainment Interactive Client Industrial Comms Infrastructure Medical Federal *Other brands and names may be claimed as the property of others.
Intel 82574L/IT Gigabit Ethernet Controller Single Port 10/100/1G x1 PCI Express* Product Features Max Power <1 Watt GbE fully active 9x9 mm QFN, pb-free Optional integrated LVR Advance I/O features MSI-X Receive Side Scaling 802.1as Time Synchronisation Interrupt Moderation, VLAN Support, IP checksum offload Advanced Cable Diagnostics, Auto MDI-X Management Features SMBus NC-SI WoL,PXE OS Support Windows, Linux, FreeBSD, Netware, DOS Production: May 2008 PCI-E x1 PCI Express Packet Buffer SmBus Mgmt LAN Config. Ethernet MAC Ethernet PHY 1000 Base-T Network Interface NC-SI SPI Flash/ EEProm
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Nand Flash and SSD Basics
SSD Wear-Leveling Basics Why use Wear-Leveling? Before Wear-Leveling High Med Med Low FAT (File Allocation Table) File System updates 512B sector is updated for each new write Causes inordinate number of writes within one block Types of Wear-Leveling Dynamic Wear-Leveling Spreads writes across all available blocks Practice: Write incoming data to least-used cycle count blocks first Static Wear-Leveling Spreads low cycle count static data to high cycle count blocks Practice: At some block cycle count differential, static data is actively moved into a high cycle count block Active Wear-Leveling Use of both Dynamic and Static Wear-leveling to achieve maximum SSD erase count drive utilization High After Wear-Leveling Med Med Low Intel SSDs support Active Wear-Leveling