XS Server Hardware: Difference between revisions
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==XS Specifications== |
==XS Specifications== |
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This is the hardware for deployment. |
This is the hardware platform for actual deployment. |
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The school server must meet all of the environmental constraints of the XO laptop |
The school server must meet all of the environmental constraints of the XO laptop |
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with the exception of daily rough handling! |
with the exception of daily rough handling! |
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===Processor Architecture=== |
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The pros and cons are: ... (feel free to editorialize) |
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⚫ | |||
====Reasons to use x86==== |
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*Support required for only a single toolchain |
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*Able to use an XO as an emergency school server replacement ? |
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====Reasons to use non-x86==== |
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*Lower power |
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*Usually integrated with more onchip peripherals. |
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===Network Interfaces=== |
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What network interfaces should be provided on the School server ? |
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====802.11b/g==== |
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How many interfaces should be provided ? If we really have 60 students in close |
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proximity, can we make do with only one or two channels ? |
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====100baseT==== |
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A wired ethernet interface provides for reliable, high-bandwidth connection between |
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school servers, or a school server and a DSL/satellite modem. |
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Perhaps the question is "How many Cat5 ports should the School server provide ?" |
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====Powerline==== |
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This technology has the potential to provide 100baseT performance over the power lines used |
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to power the school server. |
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The advantage is that even if power lines aren't currently deployed in the school, the cable required for powerline networking is more likely to be available/cheaper than Cat-3 or Cat-5 cable. |
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The drawback is the lack of standardisation and regulatory concerns in many nations. Correcting the regulatory situation isn't necessarily just a matter of time. Powerline networking emits strongly in the lower HF band, increasing the noise floor for existing communication systems (not WiFi, WiMax or cellular). |
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===Other Interfaces=== |
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What other interfaces should the School server have ? |
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====USB 2.0==== |
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A number of USB 2.0 interfaces should be provided. |
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Perhaps four ports, on two separate buses ? |
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===Internal Disk=== |
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Should an internal disk drive be provided ? A bare SATA disk is cheaper than a USB disk, and almost as easy to connect/disconnect. |
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===Power=== |
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The possible methods of obtaining power are summarized in [[Battery_and_power]]. |
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=Software Specifications= |
=Software Specifications= |
Revision as of 05:11, 2 February 2007
This is a description of the first implementation of the School server. It describes the hardware and software implementation details, including the management of services. The actual services provided by the School server are described in the Server Services document, with an accompanying discussion of desired services.
Hardware Specifications
The School server hardware platform has not been selected at this time.
The current plan is to provide two hardware platforms. One, XSX, available by mid-March, will allow for School server software testing and early deployments in areas where power mains are at least periodic if not continuous. The second platform, XS, would be reduced in cost and power, and should be available for deployment beginning in October.
XSX Specifications
This is a version with a target date of mid-March. The primary goal is to support development of the School server/laptop software, including early trials.
The initial spec is similar to an OLPC laptop with attached USB hard drive and USB CD reader. The only defined aspect is an x86 family processor.
As this is a very limited production model (10s - 100 ?), flexibility wins out over cost. Consumer PC hardware is a possibility.
There are no power consumption targets for this device. A UPS may be suggested for trial deployments in areas of uncertain power.
XS Specifications
This is the hardware platform for actual deployment.
The school server must meet all of the environmental constraints of the XO laptop with the exception of daily rough handling!
Processor Architecture
This hardware platform may or may not be based on an x86 platform. "Add your own reasons here."
Reasons to use x86
- Support required for only a single toolchain
- Able to use an XO as an emergency school server replacement ?
Reasons to use non-x86
- Lower power
- Usually integrated with more onchip peripherals.
Network Interfaces
What network interfaces should be provided on the School server ?
802.11b/g
How many interfaces should be provided ? If we really have 60 students in close proximity, can we make do with only one or two channels ?
100baseT
A wired ethernet interface provides for reliable, high-bandwidth connection between school servers, or a school server and a DSL/satellite modem.
Perhaps the question is "How many Cat5 ports should the School server provide ?"
Powerline
This technology has the potential to provide 100baseT performance over the power lines used to power the school server.
The advantage is that even if power lines aren't currently deployed in the school, the cable required for powerline networking is more likely to be available/cheaper than Cat-3 or Cat-5 cable.
The drawback is the lack of standardisation and regulatory concerns in many nations. Correcting the regulatory situation isn't necessarily just a matter of time. Powerline networking emits strongly in the lower HF band, increasing the noise floor for existing communication systems (not WiFi, WiMax or cellular).
Other Interfaces
What other interfaces should the School server have ?
USB 2.0
A number of USB 2.0 interfaces should be provided.
Perhaps four ports, on two separate buses ?
Internal Disk
Should an internal disk drive be provided ? A bare SATA disk is cheaper than a USB disk, and almost as easy to connect/disconnect.
Power
The possible methods of obtaining power are summarized in Battery_and_power.
Software Specifications
The School server should run roughly the same Linux OS as that in the XO laptop. The release process will probably be different, but the kernel and most libraries should be identical.
Development Toolchain
What is the cost of this toolchain being different from that used for the XO laptop?
Upgrades
How is the School server upgraded ?
Service Management
How are services on the School server installed, configured, managed, and updated ?
A web based interface is a natural candidate for performing these actions on the School server.
Scalability
A School server should serve up to sixty students. In schools with more students, how are the servers interconnected to minimize the management overhead ?