Hardware: Difference between revisions
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| Pogoplug || ARMv6 || [http://en.wikipedia.org/wiki/ARM9E ARM9] || 1.2GHz | | Pogoplug || ARMv6 || [http://en.wikipedia.org/wiki/ARM9E ARM9] || 1.2GHz | ||
|- | |- | ||
| [Raspberry] Pi || ARMv6 || [http://en.wikipedia.org/wiki/ARM11 ARM11] || 700MHz | | [[Raspberry]] Pi || ARMv6 || [http://en.wikipedia.org/wiki/ARM11 ARM11] || 700MHz | ||
|- | |- | ||
| [Beaglebone] Black || ARMv7 || [http://en.wikipedia.org/wiki/Cortex_A8 Cortex A8] || 1GHz | | [[Beaglebone]] Black || ARMv7 || [http://en.wikipedia.org/wiki/Cortex_A8 Cortex A8] || 1GHz | ||
|- | |- | ||
| UDOO || ARMv7 || [http://en.wikipedia.org/wiki/Cortex_A9 Cortex A9] || 1GHz | | UDOO || ARMv7 || [http://en.wikipedia.org/wiki/Cortex_A9 Cortex A9] || 1GHz |
Revision as of 21:18, 27 September 2013
- My own collection
Device | Instruction | Family | Clock |
---|---|---|---|
Pogoplug | ARMv6 | ARM9 | 1.2GHz |
Raspberry Pi | ARMv6 | ARM11 | 700MHz |
Beaglebone Black | ARMv7 | Cortex A8 | 1GHz |
UDOO | ARMv7 | Cortex A9 | 1GHz |
- samsung pico DLP projector sp-h03. LED, 30 ANSI lumen 854x480.
- USB device speed comparison
Device | Read | Write | FS |
---|---|---|---|
MicroCenter4G | Example | 12.77MB/s | Ext3 |
MicroCenter4G | Example | 5MB/s | vfat |
Patriot XT 32G USB3.0 | Example | 50MB/s | vfat |
Patriot XT 32G USB3.0 | Example | 115MB/s | fat16 |
Patriot XT 32G USB3.0 | Example | 113MB/s | fat32 |
Patriot XT 32G USB3.0 | Example | 24MB/s | ntfs |
Patriot XT 32G USB3.0 | Example | 139MB/s | ext2 |
Patriot XT 32G USB3.0 | Example | 50~100MB/s | ext3 |
Patriot XT 32G USB3.0 | Example | 140MB/s | ext4 |
Example | Example | Example | vfat |
When testing Patriot XT USB 3.0 drive, I partition it into ext2 (15GB)& ext3(15GB). The problem of unstability in Patriot XT's ext3 partition is not related to ext3 partition because if I switch the order of partitions of ext2 and ext3, then ext2 becomes unstable.
- A word about USB flash drive.
- According to the Slo Bytes USB Flash Drives report from Brian K. Lewis, flash drives are capable of handling 10 thousand to 10 million write and erase operations during their lifetime, depending on the source as well as the specific USB drive. Regardless, a flash drive typically will outlast any standard hard drive. The main concerns about the life expectancy of a flash drive are damage from neglect and becoming lost or stolen.
- The life expectancy of a USB Flash Drive can be measured by the number of write or erase cycles. USB flash drives can withstand between 10,000 to 100,000 write/erase cycles, depending on the memory technology used. When the limit is reached, some portion of the memory may not function properly, leading to lost of data and corruption.
- Most experts would agree that around 10 years is about what you can expect to retain data on a flash drive without powering it up. That means you can lock away a USB drive for 10 years and return to still see your data. After 10 years of not being powered on, the electrical charges determining if bit of information is either a ‘1’ or a ‘0’ gets hazy. This is because like all electrically charged devices, they suffer from what is called electro/magnetic deterioration; or simply put, where devices will eventually lose their power.
- The copy-paste speed on my 7200rpm hard disk is about 160MB/s.