Hardware specification: Difference between revisions
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The '''XO-1''' laptop is a central focus of One Laptop Per Child. After three years of development, it entered mass production in November 2007. There are now [[Deployments|millions of units deployed in the field]], and thousands more with developers and for testing in schools all over the world. |
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=Laptop Hardware= |
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OLPC has developed newer hardware generations [[XO-1.5]] and [[XO-1.75]] that share the XO-1's industrial design. |
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The XO laptop is the center of One Laptop Per Child. After two years of development, it is approaching mass production, with several thousand Beta test (B2) units deployed to developers and for testing in schools in participating countries. The laptop design has just undergone a final minor update to keep up with advancements in technology. |
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== Specifications == |
== Specifications == |
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* Graphics Controller: Integrated with Geode CPU; unified memory architecture |
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[[Image:drawing75c1.jpg|thumb|right]] |
[[Image:drawing75c1.jpg|thumb|right]] |
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[[Image:Olpc XO dim-Optimized.png|thumb|Dimensioned Drawing of XO, click to enlarge]] |
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The [[Media:CL1A_Hdwe_Design_Spec.pdf|definitive laptop specification]] is only available in PDF format. This page attempts to accurately reflect that information. |
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''Physical dimensions:'' |
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''Note: this is the specification of the CL1A XO-1 production laptop. The specification for the earlier CL1 version (with the wide dual-mode touchpad) is [[Media:CL1_Hdwe_Design_Spec.pdf|here]].'' |
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* Dimensions: 242mm × 228mm × 30mm (approximate, subject to change) |
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* Weight: Less than 1.5 kg (target only — subject to change) |
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* Configuration: Convertible laptop with pivoting, reversible display; dirt and moisture resistant system enclosure |
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===Physical dimensions=== |
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''Core electronics:'' |
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* Approximate dimensions: 242mm × 228mm × 32mm (see drawing to the right for detailed dimensions) |
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* CPU: [http://www.amd.com/us-en/assets/content_type/DownloadableAssets/33358e_lx_900_productb.pdf AMD Geode LX-700@0.8W] |
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* Approximate weight: |
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* CPU clock speed: 433 MHz |
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** XO laptop with LiFePO4 battery: 1.45KG (~3.20lbs); |
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* Compatibility: Athlon instruction set (including MMX and 3DNow! Enhanced) with additional Geode-specific instructions |
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** XO laptop with NiMH battery: 1.58KG (~3.48lbs); |
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* North Bridge: PCI and Memory Interface integrated with Geode CPU |
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* Configuration: Convertible laptop with pivoting, reversible display; dirt- and moisture-resistant system enclosure; no fan. |
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* Graphics Controller: Integrated with Geode CPU, using a unified memory architecture |
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* South Bridge: [http://www.amd.com/us-en/ConnectivitySolutions/ProductInformation/0,,50_2330_9863_9864%5E13054,00.html AMD CS5536] ([http://www.amd.com/files/connectivitysolutions/geode/geode_lx/33238f_cs5536_ds.zip datasheet]) |
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===Core electronics=== |
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* DRAM memory: 256 MiB dynamic RAM |
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* A photo of the [[XO Motherboard|XO-1 motherboard]] is available, with or without annotations. |
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** Data rate: Dual – DDR333 – 166 MHz |
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* CPU: x86-compatible processor with 64KB each L1 I and D cache; at least 128KB L2 cache; |
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* BIOS: 1024 KB SPI-interface flash ROM; LinuxBIOS open-source BIOS; Open Firmware bootloader |
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** [http://www.amd.com/files/connectivitysolutions/geode/geode_lx/33234G_LX_databook.pdf Datasheet] (dead link) |
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* Mass storage: 1024 MiB SLC NAND flash, high speed flash controller |
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* CPU clock speed: 433 Mhz; |
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* Drives: No rotating media |
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* i586 instruction set (including MMX and 3DNow! Enhanced) with additional Geode-specific instructions |
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* Embedded Controller: ENE KB3700: [[Image:KB3700-ds-01.pdf]] |
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* Companion chips: PCI and memory interface integrated with CPU; |
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** North Bridge: PCI and Memory Interface integrated with Geode CPU ([https://web.archive.org/web/20061019093748/http://www.amd.com/files/connectivitysolutions/geode/geode_lx/33234d_lx_ds.pdf info]) |
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** South Bridge: [https://web.archive.org/web/20130626041210/http://support.amd.com/us/Embedded_TechDocs/33238G_cs5536_db.pdff datasheet] |
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* Graphics controller: Integrated with CPU; unified memory architecture; |
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* Embedded controller: ENE KB3700 or ENE KB3700B; |
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** [[Ec_specification|Embedded Controller]]: [[Media:KB3700-ds-01.pdf|ENE KB3700]] |
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* DRAM memory: 256 MiB dynamic RAM; data rate: dual-DDR333-166Mhz; |
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* BIOS: 1024KiB SPI-interface flash ROM; |
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* Open Firmware used to load the operating system; |
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* Mass storage: 1024 MiB SLC NAND flash; (a few "Red XOs" have been built with 2048 MiB of flash) |
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* Drives: No rotating media. |
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* CAFE ASIC (camera- and flash-enabler chip provides high-performance camera, NAND FLASH and SD interfaces); Marvell 88ALP01: [http://www.marvell.com/products/pcconn/88ALP01.jsp CAFE Specification] or [http://wiki.laptop.org/images/5/5c/88ALP01_Datasheet_July_2007.pdf local copy] plus [http://dev.laptop.org/ticket/1339#comment:17 presence detect erratum] |
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[[Image:Proto-a-front.jpg|thumb|Prototype-A Motherboard]] |
[[Image:Proto-a-front.jpg|thumb|Prototype-A Motherboard]] |
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{{anchor|Display}} |
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* Liquid-crystal display: 7.5” Dual-mode TFT display |
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===Display=== |
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* Viewing area: 152.4 mm × 114.3 mm |
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{{main|Display}} |
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* Resolution: 1200 (H) × 900 (V) resolution (200 dpi) |
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* [[Display | Liquid-crystal display]]: 7.5” dual-mode TFT display; |
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* Mono display: High-resolution, reflective monochrome mode |
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* Viewing area: 152.4 mm × 114.3 mm; |
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* Color display: 800 (H) x 600 (V) or greater transmissive color mode |
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* Two "modes" depending on lighting conditions: |
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* Power Consumption: 0.1 Watt with backlight off; 0.2-1.0 Watt with backlight on |
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:(1) Grayscale (B&W) reflective mode: for outdoor use—sunlight-readable; primarily lit from the front by ambient light; high-resolution (200 DPI), 1200(H) × 900(V) grayscale pixels; power consumption 0.1–0.2Watts; |
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* The [[:Image:DCON_Specification%2C_V0.8.odt|DCON - Display Controller chip]] with memory that enables the display to remain live with the processor suspended. The display and this chip are the basis of our extremely low power architecture. The machine is usable and relaying mesh networking traffic while the CPU and much of the motherboard is regularly turned off. The display controller chip also enables deswizzling and anti-aliasing in color mode. You can examine this photograph of the display (it looks even nicer in person; photographing a display is remarkably difficult). |
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:(2) Color, backlight mode: for indoor use; primarily lit from behind by the LED backlight; built in sub-pixel sampling of the displayed color information results in a perceived resolution of at least 1024(H) × 768(V); power consumption 0.2–1.0Watts; |
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: ''Note: web browser images are currently scaled up so that an image of very roughly [800x600] fills up the browser window.'' |
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* The [[DCON|display-controller chip (DCON)]] with memory that enables the display to remain live with the processor suspended. The DCON also formats data for the display. |
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* This [[Display | Liquid-crystal display]] is the basis of our extremely low power architecture. The XO is usable while the CPU and much of the motherboard is regularly turned off (and on) so quickly that it's imperceptible to the user. Huge power savings are harvested in this way (e.g. by turning stuff on the motherboard off when it's not being used (if even for a few seconds), while keeping the display on). |
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: ''Note: web browser images are currently scaled up so that an image of very roughly [800 × 600] fills up the browser window.'' |
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[[Image:EToys - new display.jpg|thumb|right|eToys ([[Squeak]])running on the OLPC display]] |
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''Integrated peripherals:'' |
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[[Image:EToys - new display.jpg|thumb|right|[[Etoys]] running on the first OLPC display prototype]] |
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* Keyboard: 70+ keys, 1.2mm stroke; sealed rubber-membrane key-switch assembly |
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===Integrated peripherals=== |
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* Keyboard: 80+ keys, 1.0mm stroke; sealed rubber-membrane key-switch assembly; |
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** [[OLPC_Keyboard_layouts|Keyboard Layouts]] |
** [[OLPC_Keyboard_layouts|Keyboard Layouts]] |
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** Layout pictures |
** Layout pictures: [[:Image:Keyboard english.png|English]], [[:Image:Keyboard arabic.png|Arabic]], [[:Image:Keyboard thai.png|Thai]], [[:Image:NG-MP-alt.png|West African (Nigeria)]], [[:Image:BR-MP-v1.png|Portuguese]], [[:Image:ES-MP-v1.png|Spanish]], [[:Image:Ethiopic-B3.png|Amharic]], [[:Image:Rwanda-B3.png|French]], [[:Image:Urdu-MP.png|Urdu]], [[:Image:RU-MP-v1.png|Cyrillic]], [[:Image:TR-MP-v1.png|Turkish (not final)]], [[:Image:NP-MP-v1.png|Nepali]], [[:Image:MO-MP-v1.png|Mongolian]], [[:Image:KA-MP-v1.png|Kazakh]], [[:Image:MR-MP-v2.png|Devanagari]], [[:Image:UZ-MP.png|Uzbek]], [[:Image:PS-MP.png|Pashto]], [[:Image:AF-MP.png|Dari]], [[:Image:FF-MP.png|Pulaar (Fula)]], [[:Image:IT-MP.png|Italian]] |
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* Gamepad: Two sets of four-direction cursor-control keys; |
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* Touchpad: Capacitance touchpad |
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* Touchpad: [[ALPS Electric Touch Pad/Tablet|Dual capacitance/resistive touchpad]]; supports written-input mode |
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** ALPS Electric [[Touch Pad/Tablet|Dual capacitance/resistive touchpad]]; |
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* Audio: [http://www.analog.com/en/prod/0%2C2877%2CAD1888%2C00.html Analog Devices AD1888], AC97-compatible audio codec; stereo, with dual internal speakers; monophonic, with internal microphone and using the [http://www.analog.com/ Analog Devices SSM2302] for audio amplification |
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* Audio: AC’97 compatible audio subsystem; Internal stereo speakers and amplifier; internal monophonic microphone; jacks for external headphones or microphone; |
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** [http://www.analog.com/en/prod/0%2C2877%2CAD1888%2C00.html Analog Devices AD1888] and [http://www.analog.com/en/audiovideo-products/audio-amplifiers/ssm2302/products/product.html Analog Devices SSM2302] for audio amplification |
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[[Image:AP1 15.jpg|thumb|100px|Keyboard detail]] |
[[Image:AP1 15.jpg|thumb|100px|Keyboard detail]] |
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* Camera: integrated color video camera; 640 x 480 resolution at 30 FPS; independent (and undefeatable by software) display of microphone and camera recording status; the camera and device driver support disabling AGC and automatic color balancing, to enable its use as a photometric sensor for educational applications; |
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* [[Wireless]]: Marvell [[Libertas]] 88W8388+88W8015, 802.11b/g compatible; dual adjustable, rotating coaxial antennas; supports diversity reception |
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** [http://www.ovt.com/products/detail.php?id=73 Omnivision OV7670] |
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* Status indicators: Power, battery, WiFi; visible lid open or closed |
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* [[Wireless| Wireless Networking]]: Integrated 802.11b/g (2.4GHz) interface; 802.11s (Mesh) networking supported; dual adjustable, rotating antennas support diversity reception; capable of mesh operation when CPU is powered down; |
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* Video camera: 640x480 resolution, 30FPS |
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** Marvell [[Libertas]] wireless chipset, [[88W8388]] controller and [[88W8015]] radio |
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* Independent and undefeatable by software display of microphone and camera recording status |
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* Status indicators: Power, battery, and WiFi (2), visible with lid open or closed; Microphone In-Use, and Camera In-Use, visible when lid is open. |
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===External connectors=== |
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* DC power: 6mm (1.65mm center pin) connector; 11 to 18 V input usable, –32 to +40V input tolerated; power draw limited to 17 W; - see power connector dimensions at [[Battery and power#Mechanical|Battery and power]]. |
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* Headphone output: standard 3.5mm 3-pin switched stereo audio jack; |
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* Microphone input: standard 3.5mm 2-pin switched mono microphone jack; selectable 2V DC bias; selectable sensor-input mode (DC or AC coupled); |
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* USB: Three Type-A USB 2.0 connectors; Up to 1A power supplied (total); |
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* Flash Expansion: [[SD]] Card slot. |
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''External connectors:'' |
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* Power: 2-pin DC-input, 10 to 20 V usable input. Input can safely handle -40 to 39 V. input. Exceeding this range will likely blow a one-time fuse. |
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* Line output: Standard 3.5mm 3-pin switched stereo audio jack |
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* Microphone: Standard 3.5mm 2-pin switched mono microphone jack; selectable input mode: |
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** Sensor, DC w. 2.5 V (3K ohm impedance) bias voltage for switches, resistive sensors, etc. |
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** Sensor, DC w. no bias voltage for measuring voltages (0 - 3 V) |
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** External Microphone, AC w. bias voltage |
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* Expansion: 3 Type-A USB-2.0 connectors; MMC/SD Card slot |
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* Maximum power: 1 A (total) |
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[[Image:Rotate-1.jpg|thumb|Connectors]] |
[[Image:Rotate-1.jpg|thumb|Connectors]] |
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===Battery=== |
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* Pack type: 2 or 4 cells LiFePO4; or 5 cells NiMH, approx. 6V series configuration (subject to change); |
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* Fully-enclosed “hard” case; user removable |
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* Capacity: 16.5 Watt-hours (NIMH), 22 Watt-hours (LiFeP); |
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* Pack type: 4 Cells, 6V series configuration |
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* Fully-enclosed “hard” case; user removable; |
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* Two chemistries: |
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* Electronics integrated with the pack provide: |
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**NIMH, with a capacity of 16.5 Watt-hours |
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** Identification; |
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**LiFeP, with a capacity of 22 Watt-hours |
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** Battery charge and capacity monitoring chip ([[Media:DS2756.pdf|Maxim DS2756 data sheet]]); |
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* Electronics integrated with pack provide: |
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** Thermal and over-current sensors along with cutoff switch to protect battery; |
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** Identification |
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* Minimum 2,000 charge/discharge cycles (to 50% capacity of new). |
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** Thermal and over-current sensors along with cutoff switch to protect battery |
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* Cycle life: Minimum 2,000 charge/discharge cycles (to 50% capacity of new, IIRC). |
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* [[Power Management]] will be critical |
* [[Power Management]] will be critical |
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See [[Laptop Batteries]] or more information. |
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[[Image:Bottomdrawing.jpg|thumb|Battery]] |
[[Image:Bottomdrawing.jpg|thumb|Battery]] |
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===BIOS/loader=== |
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* [[Open Firmware]] |
* [[Open Firmware]] (including hardware initialization and fast resume). |
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* Panasonic ML1220 battery |
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===Environmental specifications=== |
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* Temperature: UL certification planned to 45C in Q32007, pending 50C certification in mid-2008; |
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* Temperature: somewhere in between typical laptop requirements and Mil spec; exact values have not been settled |
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* Humidity: |
* Humidity: UL certification planned to [[IP_Code|IP42]] (perhaps higher) when closed, the unit should seal well enough that children walking to and from school need not fear rainstorms and dust; |
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* |
* Maximum altitude: –15m to 3048m (14.7 to 10.1 PSIA) (operating), –15m to 12192m (14.7 to 4.4 PSIA) (non-operating); |
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* Shock |
* Shock 125g, 2ms, half-sine (operating) 200g, 2ms, half-sine (non-operating); |
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* Random vibration: 0.75g zero-to-peak, 10Hz to 500Hz, 0.25 oct/min sweep rate (operating); 1.5g zero-to-peak, 10Hz to 500Hz, 0.5 oct/min sweep rate (nonoperating) |
* Random vibration: 0.75g zero-to-peak, 10Hz to 500Hz, 0.25 oct/min sweep rate (operating); 1.5g zero-to-peak, 10Hz to 500Hz, 0.5 oct/min sweep rate (nonoperating); |
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* |
* 2-3mm plastic walls (1.3mm is typical for most systems). |
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===Regulatory requirements=== |
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[[File:RoHS_Restriction_of_Hazardous_Substances_Directive_Logo.png|right|220px]] |
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* The usual US and EU EMI/EMC requirements will be met. |
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* The usual US and EU EMI/EMC (electromagnetic-interference and electromagnetic-compatibility) requirements will be met; |
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* The laptop and all OLPC-supplied accessories will be fully UL and is RoHS compliant. |
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* The laptop meets IEC 60950-1, EN 60950-1, and CSA/UL 60950-1 specifications. It also complies with UL 1310 and UL 498. In order to guarantee the safety of children using the laptop, it passes ASTM F 963; |
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* The external power adapter complies with IEC, EN, and CSA/UL 60950-1; |
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* The removable battery pack complies with IEC, EN, and CSA/UL 60950-1 and UL 2054; |
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* [http://ec.europa.eu/environment/waste/rohs_eee/legis_en.htm RoHS (Restriction of Hazardous Substances Directive – EU) compliant.] |
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==Laptop Development Schedule== |
==Laptop Development Schedule== |
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On April 15, 2006, the first prototypes of the [[XO]], the [[XO_A|A1]] prototype boards, were first powered on. Development continued with the [[XO_B1|B1]], the first complete prototype laptop, in November of 2006. The [[XO_B2|B2]] laptops were the first to incorporate the CaFE chip, and was produced in small quantities for initial trials in January 2007. In April of 2008 the design was refreshed with a faster processor and more memory/NAND flash. The [[XO_B3|B3]] prototypes were the first test of this design. Slight refinements were incorporated into the [[XO_B4|B4]], manufactured in June 2008, which is very similar to the production version of the laptop. Finally, mass production started in November 2007 with the [[XO_C2|C2]] version. |
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The XO laptop hardware development schedule has two more test unit builds (Beta Test 3 and Beta Test 4), before a final test build (C Test 1) on the final production line and mass production. The Beta Test 3 build scheduled for early May will be the first one providing the processor and memory capabilities of the production version. |
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Each prototype and production version is described in more detail separately: [[XO_A|A1]], [[XO_B1|B1]], [[XO_B2|B2]], [[XO_B3|B3]], [[XO_B4|B4]], [[XO_C1|C1]], '''[[XO_C2|C2]]''' |
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=== Pre-production Test Systems (CTest-1, or C1) === |
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==Serial Adapter== |
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This build is a very small number (200 or so) of laptops produced as a test of the manufacturing process on the main production line, and should happen in early fall 2007. A C1 laptop is hopefully identical to a production unit in all aspects... |
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[[Image:serialadapter.jpg|100px|right]] |
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In order to conserve parts/space, while the motherboard does provide two serial ports for debugging (one populated in production), it does not provide voltage translators to fully implement the RS-232 protocol. Thus a [[Serial_adapters|3.3V TTL to RS-232 (or USB) Adapter]] is needed. |
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=== Beta Test 4 Systems (BTest-4, or B4) === |
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<br clear="all"> |
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This build, scheduled for the middle of summer 2007, is the final chance to fix hardware and mechanical problems that were detected in the Beta Test 3 build of the XO. Only a small number (200 or so) of these will be built for testing, as the injection molds for the plastic case have to be taken offline and duplicated to prepare for mass production (the Beta Test mold set will be retired after duplication). |
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== Other Documents == |
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* A complete [[Repair Parts]] List is under development. |
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No new features will be added to the laptop in this build. This build is planned merely to test solutions to problems detected in the BTest-3 laptops. |
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* [[Media:XO-1_Schematics.pdf|Schematics]] |
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=== Beta Test 3 Systems (BTest-3, or B3) === |
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This build, scheduled for May 2007, is the first to use an updated design for the laptop. |
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Noticeable improvements over BTest-2 include: |
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* A faster, lower power processor: the Geode LX-700 |
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** 64 KB I/64 KB D of L1 Cache, 128 KB of L2 Cache (vs. 32 KB of L1 cache) |
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** Faster processor and memory clock (433/333 vs. 366/266) |
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** 1.5 W typ. vs. 3 W typ. |
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** Much better graphics processor, including support for rotated blits and depth conversion |
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* More memory: 256 MB of SDRAM (vs. 128 MB) |
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* A new hinge design allows greater tilt of the screen |
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* An improved case design (addressing strength and water resistance) |
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A very small number of BTest-3 units (around a hundred) will be built, all destined for hardware and low level software development. |
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=== Beta Test 2 Systems (BTest-2, or B2) === |
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Approximately 2500 systems were built by Quanta and are being distributed. These are fully functional machines with CaFE ASICs, and reflect some, but not all of the learning and improvements from testing of BTest-1. Much more information about the BTest-2 systems can be found in the [[BTest-2 Release Notes]]. Some of the details of the hardware design are to support the [[OLPC Human Interface Guidelines]]. |
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BTest-2 systems are almost identical visually with BTest-1. BTest-3 will have more substantial physical differences. An easy way to tell the difference between BTest-1 and BTest-2 is that BTest-1 keyboards have white lettering, and BTest-2 has black lettering. |
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=== Beta Test 1 Systems (BTest-1) === |
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Approximately 875 systems were built by Quanta and were distributed. These are fully functional machines, but built before the rigorous testing that will now take place. Much more information about the BTest-1 systems can be found in the [[BTest-1 Release Notes]]. |
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=== Pre-BTest boards === |
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A small number of pre-BTest boards were built in preparation for building complete BTest systems. [[Btest_Boards|Developer information about B-test boards are here.]] |
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=== Alpha Test Prototype Electronics === |
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Power up of the first OLPC electronics prototype boards occurred April 15, 2006. Power and ground testing continued over the weekend, and formal debug and BIOS bring up started Monday, April 17, 2006 at Quanta Computer's labs in Taipei, Taiwan. By Wednesday, April 19, Linux was booting on the first generation prototypes. |
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Photographs: |
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* [[media:Proto-a-front.jpg|Component side OLPC circuit board]] |
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* [[media:Proto-a-back.jpg|Back side of the OLPC circuit board]] |
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* [[media:Proto-a-linux.jpg|Picture of Linux running with circuit board in the lab]] |
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* [[media:Proto-a-screen.jpg|Picture of the screen of Linux running on the OLPC circuit board; fittingly, it shows a Chinese desktop]] |
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== Environmental Impact == |
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How Green is my Laptop? |
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By Mary Lou Jepsen |
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The XO by One Laptop per Child (OLPC) is not just visually green, it’s the most eco-green laptop ever made. Many would have you believe that buying “green” will cost more. This is true, for example, for hybrid cars. OLPC was unwilling to increase the price to go green, instead we concentrated on low-cost, low-power, long-life, and field repair and in so doing have created a stunningly green laptop. |
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OLPC is in process of filing for the first “gold” award that has ever been given to a laptop by EPEAT an organization that assesses the environmental impact of laptops according to the IEEE 1680-2006 specification. XO is also non-toxic and fully recyclable. We are planning a full take-back program. In other words: these machines are not destined for landfills at the end of their approximate 5 year lifetime. 2.5X the lifetime of a typical laptop. |
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If all computer users switched from their desktops and laptops to the OLPC XO laptop: $9B US dollars could be saved in world-wide electricity bills. This savings is enough to outright buy laptops for 50 million children. In addition, 50 million barrels of oil could be saved, and 65 million metric tons of environmental CO2 emissions could be avoided. In carbon-offset dollars for electricity use alone, another ~$500 million US dollars could be saved yearly. |
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=E-waste= |
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230 million personal computers are dumped in landfills every year. 500 shipping containers full of e-waste arrive in Nigeria everyday. The XO could lower the landfill impact in 4 key ways: |
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1)Longer Lifetime: The laptop lifetime is 5 years or 2.5 times longer than a typical laptop; even better: our batteries last 4X longer than typical laptop batteries. |
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2)Footprint: XO is half the size and weight of a typical laptop, and a fraction the size and weight of a typical desktop |
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3)Toxicity: XO is RoHS compliant: No chromium, lead, beryllium, mercury, cadmium and zinc are used on the motherboard or in the batteries. In addition, XO is one of the first laptops to eliminate mercury. This through the elimination of the small mercury-containing fluorescent lamp used in nearly all liquid crystal display. The OLPC display is one of the first to use LEDs in the backlight in lieu. |
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4)The OLPC recycling take-back program: For an additional $0.10 per laptop Quanta believes that they could institute a full take back recycling program. We are fully assessing the exact cost but are planning a full take back program to be implemented in each country. |
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Our goal: not a single XO laptop to end up in a landfill. |
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=Power Consumption= |
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Power consumption data for 132 desktop computers and 93 notebook computers which were averaged and used in this analysis . The average desktop computer idles at 80 Watts while the average laptop computer idles at 20 Watts. In contrast, the average idle power consumption of the XO laptop is just 1 watt. |
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Gardner reports that 230 million personal computers are sold per year, approximately 165 million of these are desktops and 65 million of them are laptops. Assuming 2000 hour use per computer per year at the low end of power consumption (idle-mode), and an average 3 year lifetime, 87 billion kilo-watt hours are used to power the world’s personal computers per year. If every personal computer was replaced by an OLPC XO laptop, just 1.5 billion kilo-watt hours would be needed: thus 85 Billion kilo-watt hours could be saved. Alternatively, the industry could just adapt a lower power consumption architecture like we have created. It allow human power recharge, and accepts solar power input, wind power, etc. At $0.10 per kilowatt-hour the savings of a massive switch to an XO or an XO like architecture amounts to a $8.5 billion dollar energy savings. And at 1700 kilo-watt hours per barrel of oil: 50M barrels, and 65 million metric tons of CO2 emissions or another approximately $500M yearly in carbon-offset dollars. |
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=IEEE 1680 Consumer Electronics Environmental Impact= |
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EPEAT has created a procurement tool to help evaluate, compare and select desktop computers, notebooks and monitors based on their environmental attributes. EPEAT provides a clear and consistent set of performance criteria for the design of products, and provides an opportunity for manufacturers to secure market recognition for efforts to reduce the environmental impact of their products. OLPC is in process of applying for a rating, which we believe will be excellent. XO appears destined to be the first laptop to receive their Gold Rating, it has even been suggested that the XO may warrant establishing a new, even higher rating. XO achieves the following which should give it the first gold award: |
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Notably - above and beyond the EPEAT requirements, XO has |
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•Batteries that last 4x longer than standard rechargeables |
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•Power consumption at about 10% of typical laptop |
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•Laptop lifetime of about 2.5x longer than typical (5 year life) |
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•Half the size and weight of a typical laptop |
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Thus, above and beyond EPEAT, in our first year of deployment of 3–5M units we will save, when compared to any other EPEAT ranked laptop shipped in the same year, the following: |
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•45-million pounds of e-waste (3 lbs x 5 Munits x 2.5–4x lifetime/2000 lbs/ton) |
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•240-Giga-Watt hours of energy (20 Watt extra x 8 hours x 300 days x 5M units) |
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As we scale in our second year of production these savings should increase even more: to preventing as much 500-million pounds of e-waste, and saving 2.5 Tera-watts of power. OLPC is working with other organizations to assure its environmental impact is very low and more information will be available here in the coming weeks. |
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== See also == |
== See also == |
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*[[Hardware]] |
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Formerly part of this page: |
Formerly part of this page: |
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*[[Hardware uniqueness]] |
* [[Hardware uniqueness]] |
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*[[Hardware design]] |
* [[Hardware design]] |
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* [[Hardware modification]] |
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=School Server Hardware= |
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While the laptop is rightfully at the center of OLPC, a valuable peripheral is the [[School_server|school server]]. OLPC will be building and distributing school servers along with the laptops, to extend the storage and computation provided by each laptop, as well as providing a local library and a mesh portal to the Internet. |
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Unlike the laptop, the [[School_server|school server]] is more of a [[XS_Server_Services|collection of services]] than a hardware platform. In a manner identical to the laptop, OLPC will collaborate with manufacturing partners to provide a cost-efficient hardware platform for running the recommended software. Unlike the laptop, the manufacturing collaboration will not be exclusive. Individual countries will be free (even encouraged) to design and manufacture their own school servers running derivatives of the OLPC school server software. |
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==XS== |
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This will be the school server built for OLPC by Quanta. It is still in the very early stages of design, but should reach early production volumes in late fall. See the [[XS_Server_Specification#XS_Specifications|specification]]. |
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==XSX== |
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See also: |
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This is a prototype school server, built for early school trials in country. It will be integrated from off-the-shelf components, and will be overpowered compared to a production school server in order to simplify [[Trial1_Server_Software|early demands for system software]]. See the [[XS_Server_Specification#XSX_Specifications|specification]] and the [[XSX_Server_Implementation|implementation]]. |
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* [[Hardware Testing]]: Safety Certifications and Robustness |
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* [[Hardware]] |
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[[Category:hardware]] |
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* [[Support]] |
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[[Category:developers]] |
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* The '''[[Media:CL1_Hdwe_Design_Spec.pdf|definitive laptop specification]]''' (only available in PDF format). |
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[[category:Hardware]] |
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[[Category:XO-1]] |
Latest revision as of 20:50, 15 July 2016
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The XO-1 laptop is a central focus of One Laptop Per Child. After three years of development, it entered mass production in November 2007. There are now millions of units deployed in the field, and thousands more with developers and for testing in schools all over the world. OLPC has developed newer hardware generations XO-1.5 and XO-1.75 that share the XO-1's industrial design.
Specifications
The definitive laptop specification is only available in PDF format. This page attempts to accurately reflect that information. Note: this is the specification of the CL1A XO-1 production laptop. The specification for the earlier CL1 version (with the wide dual-mode touchpad) is here.
Physical dimensions
- Approximate dimensions: 242mm × 228mm × 32mm (see drawing to the right for detailed dimensions)
- Approximate weight:
- XO laptop with LiFePO4 battery: 1.45KG (~3.20lbs);
- XO laptop with NiMH battery: 1.58KG (~3.48lbs);
- Configuration: Convertible laptop with pivoting, reversible display; dirt- and moisture-resistant system enclosure; no fan.
Core electronics
- A photo of the XO-1 motherboard is available, with or without annotations.
- CPU: x86-compatible processor with 64KB each L1 I and D cache; at least 128KB L2 cache;
- Datasheet (dead link)
- CPU clock speed: 433 Mhz;
- i586 instruction set (including MMX and 3DNow! Enhanced) with additional Geode-specific instructions
- Companion chips: PCI and memory interface integrated with CPU;
- Graphics controller: Integrated with CPU; unified memory architecture;
- Embedded controller: ENE KB3700 or ENE KB3700B;
- DRAM memory: 256 MiB dynamic RAM; data rate: dual-DDR333-166Mhz;
- BIOS: 1024KiB SPI-interface flash ROM;
- Open Firmware used to load the operating system;
- Mass storage: 1024 MiB SLC NAND flash; (a few "Red XOs" have been built with 2048 MiB of flash)
- Drives: No rotating media.
- CAFE ASIC (camera- and flash-enabler chip provides high-performance camera, NAND FLASH and SD interfaces); Marvell 88ALP01: CAFE Specification or local copy plus presence detect erratum
Display
- Main article: Display
- Liquid-crystal display: 7.5” dual-mode TFT display;
- Viewing area: 152.4 mm × 114.3 mm;
- Two "modes" depending on lighting conditions:
- (1) Grayscale (B&W) reflective mode: for outdoor use—sunlight-readable; primarily lit from the front by ambient light; high-resolution (200 DPI), 1200(H) × 900(V) grayscale pixels; power consumption 0.1–0.2Watts;
- (2) Color, backlight mode: for indoor use; primarily lit from behind by the LED backlight; built in sub-pixel sampling of the displayed color information results in a perceived resolution of at least 1024(H) × 768(V); power consumption 0.2–1.0Watts;
- The display-controller chip (DCON) with memory that enables the display to remain live with the processor suspended. The DCON also formats data for the display.
- This Liquid-crystal display is the basis of our extremely low power architecture. The XO is usable while the CPU and much of the motherboard is regularly turned off (and on) so quickly that it's imperceptible to the user. Huge power savings are harvested in this way (e.g. by turning stuff on the motherboard off when it's not being used (if even for a few seconds), while keeping the display on).
- Note: web browser images are currently scaled up so that an image of very roughly [800 × 600] fills up the browser window.
Integrated peripherals
- Keyboard: 80+ keys, 1.0mm stroke; sealed rubber-membrane key-switch assembly;
- Keyboard Layouts
- Layout pictures: English, Arabic, Thai, West African (Nigeria), Portuguese, Spanish, Amharic, French, Urdu, Cyrillic, Turkish (not final), Nepali, Mongolian, Kazakh, Devanagari, Uzbek, Pashto, Dari, Pulaar (Fula), Italian
- Gamepad: Two sets of four-direction cursor-control keys;
- Touchpad: Capacitance touchpad
- ALPS Electric Dual capacitance/resistive touchpad;
- Audio: AC’97 compatible audio subsystem; Internal stereo speakers and amplifier; internal monophonic microphone; jacks for external headphones or microphone;
- Analog Devices AD1888 and Analog Devices SSM2302 for audio amplification
- Camera: integrated color video camera; 640 x 480 resolution at 30 FPS; independent (and undefeatable by software) display of microphone and camera recording status; the camera and device driver support disabling AGC and automatic color balancing, to enable its use as a photometric sensor for educational applications;
- Wireless Networking: Integrated 802.11b/g (2.4GHz) interface; 802.11s (Mesh) networking supported; dual adjustable, rotating antennas support diversity reception; capable of mesh operation when CPU is powered down;
- Status indicators: Power, battery, and WiFi (2), visible with lid open or closed; Microphone In-Use, and Camera In-Use, visible when lid is open.
External connectors
- DC power: 6mm (1.65mm center pin) connector; 11 to 18 V input usable, –32 to +40V input tolerated; power draw limited to 17 W; - see power connector dimensions at Battery and power.
- Headphone output: standard 3.5mm 3-pin switched stereo audio jack;
- Microphone input: standard 3.5mm 2-pin switched mono microphone jack; selectable 2V DC bias; selectable sensor-input mode (DC or AC coupled);
- USB: Three Type-A USB 2.0 connectors; Up to 1A power supplied (total);
- Flash Expansion: SD Card slot.
Battery
- Pack type: 2 or 4 cells LiFePO4; or 5 cells NiMH, approx. 6V series configuration (subject to change);
- Capacity: 16.5 Watt-hours (NIMH), 22 Watt-hours (LiFeP);
- Fully-enclosed “hard” case; user removable;
- Electronics integrated with the pack provide:
- Identification;
- Battery charge and capacity monitoring chip (Maxim DS2756 data sheet);
- Thermal and over-current sensors along with cutoff switch to protect battery;
- Minimum 2,000 charge/discharge cycles (to 50% capacity of new).
- Power Management will be critical
See Laptop Batteries or more information.
BIOS/loader
- Open Firmware (including hardware initialization and fast resume).
- Panasonic ML1220 battery
Environmental specifications
- Temperature: UL certification planned to 45C in Q32007, pending 50C certification in mid-2008;
- Humidity: UL certification planned to IP42 (perhaps higher) when closed, the unit should seal well enough that children walking to and from school need not fear rainstorms and dust;
- Maximum altitude: –15m to 3048m (14.7 to 10.1 PSIA) (operating), –15m to 12192m (14.7 to 4.4 PSIA) (non-operating);
- Shock 125g, 2ms, half-sine (operating) 200g, 2ms, half-sine (non-operating);
- Random vibration: 0.75g zero-to-peak, 10Hz to 500Hz, 0.25 oct/min sweep rate (operating); 1.5g zero-to-peak, 10Hz to 500Hz, 0.5 oct/min sweep rate (nonoperating);
- 2-3mm plastic walls (1.3mm is typical for most systems).
Regulatory requirements
- The usual US and EU EMI/EMC (electromagnetic-interference and electromagnetic-compatibility) requirements will be met;
- The laptop meets IEC 60950-1, EN 60950-1, and CSA/UL 60950-1 specifications. It also complies with UL 1310 and UL 498. In order to guarantee the safety of children using the laptop, it passes ASTM F 963;
- The external power adapter complies with IEC, EN, and CSA/UL 60950-1;
- The removable battery pack complies with IEC, EN, and CSA/UL 60950-1 and UL 2054;
- RoHS (Restriction of Hazardous Substances Directive – EU) compliant.
Laptop Development Schedule
On April 15, 2006, the first prototypes of the XO, the A1 prototype boards, were first powered on. Development continued with the B1, the first complete prototype laptop, in November of 2006. The B2 laptops were the first to incorporate the CaFE chip, and was produced in small quantities for initial trials in January 2007. In April of 2008 the design was refreshed with a faster processor and more memory/NAND flash. The B3 prototypes were the first test of this design. Slight refinements were incorporated into the B4, manufactured in June 2008, which is very similar to the production version of the laptop. Finally, mass production started in November 2007 with the C2 version.
Each prototype and production version is described in more detail separately: A1, B1, B2, B3, B4, C1, C2
Serial Adapter
In order to conserve parts/space, while the motherboard does provide two serial ports for debugging (one populated in production), it does not provide voltage translators to fully implement the RS-232 protocol. Thus a 3.3V TTL to RS-232 (or USB) Adapter is needed.
Other Documents
- A complete Repair Parts List is under development.
- Schematics
See also
Formerly part of this page:
See also:
- Hardware Testing: Safety Certifications and Robustness
- Hardware
- Support
- The definitive laptop specification (only available in PDF format).