What is the transfer rate of the ata interface in hp pavillion g4-1117dx

Similar Messages

• What is the Standard Interface of Delivery

  Hi,
  what is the Standard Interface of Delivery in ECC 6.0,like we have Standard medruck interface in ECC 6.0

  You don't talk to a web-service with a stub - you talk to it with SOAP messages sent via HTTP.
  What the stub is protecting you from, is having to know how to construct the SOAP messages (which is a really tedious, error-prone process, if you're doing it by hand). Use WSCompile or WSDL2Java, and bless their little hearts every time you make a simple stub-call...
  Grant

• What is the  purposeof interface view property?

  what is the  purposeof interface view property?

  Hi Rafi,
  Interface View means Communication between two views in diff Contrallers.
  http://help.sap.com/search/highlightContent.jsp
  Regards
  Vijay Kalluri

• What's the new interface like?

  I've read this about Logic going to a single-window interface, and I'm skeptical. How does this work out? Do we still have screensets? Can I still hit a trusty old Cmd-# combination to open a Matrix or Environment window? Is there a "Classic" interface option? Or does the new interface give you ready access to all the editing options that they've previously used multiple windows for?

  Sean Quinn1 wrote:
  I've read this about Logic going to a single-window interface, and I'm skeptical.
  We all were.
  Sean Quinn1 wrote:
  How does this work out? Do we still have screensets?
  Yes, and you can name them now.
  Sean Quinn1 wrote:
  How does this work out? Do we still have screensets? Can I still hit a trusty old Cmd-# combination to open a Matrix or Environment window? Is there a "Classic" interface option? Or does the new interface give you ready access to all the editing options that they've previously used multiple windows for?
  Yes you can use your old Cmd-#. Just like you did before. The same commands work for the same windows. No classic interface needed. This one is much better (and I've been using it for two days straight.)

• What is the Realizable Interface ?

  I came across a question regarding java.io.Realizable interface in one of the mock tests.
  The question is as follows :
  Which three statements regarding the use of java.io.Realizable interface are true ?
  A. Object from classes that use aggregation cannot be serialized.
  B. An object serialized on one JVM can be successfully desterilized on a different JVM.
  C. THe values in fields with the Volatile modifier will not survive serialization and deserialization .
  D. THe values in field with the transient modifier will not survive serialization and deserialization .
  E. IT is legal to serialize an object of a type that has  a supertype that does NOT implement java.io.Serialization
  *Answer : B,D,E*I was not able to locate any realizable interface using Google.Does this interface exist or has been renamed or depleted ? Or is the question wrong ?
  Thank you for your consideration.

  It's a typo. You should have been able to guess the correct term given the bold-faced clues.
  A. Object from classes that use aggregation cannot be serialized .
  B. An object serialized on one JVM can be successfully desterilized on a different JVM.
  C. THe values in fields with the Volatile modifier will not survive serialization and deserialization .
  D. THe values in field with the transient modifier will not survive serialization and deserialization .
  E. IT is legal to serialize an object of a type that has a supertype that does NOT implement java.io.*Serialization*
  If you couldn't figure this one out...

• K8N Neo4 Platinum + Barracuda 7200.9 HD--what transfer rates to expect?

  My HD is SATA II set up as RAID0.  I have only one HD in the system.  What kind of transfer rate can I expect?  I've run some benchmarks--3D Mark, PC Mark, SiSoft Sandra, and N-bench.  I forget which one gave me the HD transfer rate, but the rate was 55 MB/sec.  It seems like the HD should be faster than that.
  Any comments would be welcome!
  Bruce

  Quote from: gr8nrg on 31-December-05, 02:15:11
  Thanks syar2003!
  That's what I wanted to hear. Yes, I have enabled 3gb transfer rate using Hitachi Feature Tool and I'm using Nvidia drivers. I am not sure how to enable NCQ in the Hitachi Feature Tool. I don't see that option there. Where is it? Only 3gb/s change and "spread spectrum" option, which, by the way should I enable it or not??? 
  I'm going to go and check later if in the drivers tab I have NCQ enabled or not. And you're right, with MS drivers, you can't do that. 
  As far as RAID goes, even if I later add secomd SATA II drive, I've read several benchmarking articles that there is almost no improvement in real life performance (read: in games and apps) with RAID 0 setup over non-RAID setup with 2 separate drives, but twice as likely data loss, naturally.
  This link has 3 references to reputable discussions
  Am I right about those conclusions? 
  What people mean theoretically and what you personally feel running raid 0 is two seperate things.
  Another thing is that reviewers always use large stripe size and this wont help for a mixed use with OS loaded on the raid.
  OS on raid 0 need stripe size 16 or 32 as the partition is mostly filled up with smaller files and we want that files to split
  on two drives over the raid.
  I've been running raid0 since nforce2 , and running OS on single disk again feels like a performance loss for sure.
  The fault tolerance thing is not an aspect as all I install on the raided volume can be reinstalled or imaged back .
  Never lost a disk yet though , but had data corruption due to the non locked sata 1/2 on the nforce3 (cover yourself when OC'ing is wise).

• For guitar, vocals, keyboard/drumpad controller, what is the best audio interface to use/record quality sound in Logic, Mainstage, Garageband, etc. (lowbudget)?

  So many to choose from. im really just trying to record clean sounding electric guitar tracks now vocals in the future and keyboard/drumpad controller near future..(irrelevant but thought i should mention im in the market for a keyboard and drumpad controller combo hopefully will be usb or something) but i need a quality audio interface to use with Logic Pro 9 and all the stuff that comes with it (mainstage, etc) and also Garageband. I have heard so many different reviews about this or that but all in all i dont think i can afford an apogee except maybe the apogee One but it at 249 or whatever i feel like i could get alot more bang for my buck. Ive heard alot of good things about m-audio gear but i heard mixed reviews as well. If someone can just tell me what is the best interface in the 100-200$ range for the needs ive listed above...Any responses or advice greatly apprecitated.
  Thanks
  -J

  hi mm
  there are so many different sound cards out there these days it seems - ill just say that one that i got alot of use out of was the tascam 122 (http://www.tascam.com/Products/US-122.html)
  it has 2 decent phantom powered XLR inputs, some midi stuff, a place to plug a guitar into and some nice big knobs.
  the next level would be something with more ins (8 or 10) and probably firewire, and also around $400 i think.
  oh, and your computer should be more than sufficient to handle what you want to do.
  G4PB1.5GHZ12INCH125RAM Mac OS X (10.4.6)

• What is the Digital I/O wiring interface used with 7344?

  Using a 7344 motion controller with the UMI-7764 wiring interface.  What is the wiring interface part number for the digital I/O connector?

  Hello MarkGann,
  You can use a SCH68 cable connected to a NI SCB-68 I/O connector block 776844-01 in order to break out the Digital I/O ports of the 7344. 
  Wear
  National Instruments
  Product Support Engineer

• ULN transfer rate (up2date) too low

  Since several months ago the ULN transfer rate has been getting worse and worse on each and every one download (up2date). I'm just trying to update the OEL-5.1 with OEL-5.2, but it is impossible with the transfer rate of 39 kB/s. My average transfer rate is 1.8 MB/s.
  Has anyone else experienced the same?

  I've already posted my ULN data to T.R. to be further investigated. For your info
  Can you provide some details about your network?No network at all, it's a development system located at my home with only one (non-shared) internet connection (ADSL-16000 kbits/sec = 1.95 MB/sec). Here are some transfer rates on another sites to compare to:
  * edelivery.oracle.com/linux      1.6 - 1.7 MB/sec
  * OTN (11g download)              1.7 - 1.8 MB/sec
  * java.sun.com                    1.7 - 1.8 MB/sec
  * many Fedora mirror sites        1.6 - 1.95 MB/sec
  * etc, in average                 1.8 MB/sec  
  * etc, most frequently            1.7 MB/sec
  Perhaps someone is downloading Indiana Jones and the kingdom of the
  crystal skull, for example...Perhaps, but not using my connection. BTW, what's your transfer rate at ULN (in average, most frequently, and right now)?

• Transfer Rate To ATV Drops

  When I first power up my AppleTV the wireless transfer rate shown in the Airport Utility is 270 Mbps. The rate stays at 270 for a few hours to a few days and then drops to as low as 14 Mbps. If I unplug the AppleTV and plug it back in the rate jumps back up to 270. If it were not for the fact that I observe a significant difference in HD trailer download times I might think the Airport Utility is reporting bogus transfer rates. Are the transfer rates reported by Airport Utility nonsense? Is there a problem with my AppleTV? Both? What kind of transfer rate can I really expect? Thanks.

  Make sure its 2.0
  USB 2.0 is about 20x faster than USB 1.1
  If it is 2.0 there is no reason why it should be slow.

• What is the highest quality bit rate transfer?

  What is the highest quality bit rate transfer iTunes offers?

  Transfer from what to what?
  Do you mean encoding?  If so, which format?  For mp3 and similar lossy codecs 320k,

• What is the iPod transfer (ACC-AIFF) rate

  I upgraded my system and now have a larger HD.
  I reentered most of the songs in AIFF whereas prior they were ACC.
  I have a 6og iPOD and all the songs will not fit if the iPOD loads them as AIFF.
  Does the iPOD transfer at the rate that the iTunes songs are imported or are they adjusted to ACC or MP3 ?
  If not can I change the iPOD transfer rate setting and/or only transfer from certain playlists similar to the iPhoto ability.
  Thanks,
  Greg

  *Where are the settings for the iPod ? - I only noticed them when I have my iPod attached to the computer.*
  That's correct you'll only see the iPod preferences when your iPod is connected and showing in iTunes.
  *Otherwise if I attach the iPod it will try and download the entire iTunes library.*
  If your iPod is set to update automatically you can use a keyboard command to prevent your iPod auto-syncing. While connecting the iPod to the computer on a Mac hold down the Option and Command (⌥ and ⌘ Apple) keys together. This will stop the iPod from auto-syncing with iTunes and it will appear in the source list. Wait until you are sure the iPod has mounted, and that it will not auto sync and then you can let the keys go. This may take between 20 to 30 seconds depending on your computer. You should then be able to change your settings Once you are connected you can access and change the settings: iTunes for Mac - Keyboard Shortcuts

• How to find the max data transfer rate(disk speed) supported by mobo?

  I plan on replacing my current HDD with a new and bigger HDD.
  For this I need to know the max data transfer rate(disk speed) that my mobo will support. However, dmidecode is not telling me that. Am I missing something?
  Here's dmidecode:
  # dmidecode 2.11
  SMBIOS 2.5 present.
  80 structures occupying 2858 bytes.
  Table at 0x000F0450.
  Handle 0xDA00, DMI type 218, 101 bytes
  OEM-specific Type
  Header and Data:
  DA 65 00 DA B2 00 17 4B 0E 38 00 00 80 00 80 01
  00 02 80 02 80 01 00 00 A0 00 A0 01 00 58 00 58
  00 01 00 59 00 59 00 01 00 75 01 75 01 01 00 76
  01 76 01 01 00 05 80 05 80 01 00 D1 01 19 00 01
  00 15 02 19 00 02 00 1B 00 19 00 03 00 19 00 19
  00 00 00 4A 02 4A 02 01 00 0C 80 0C 80 01 00 FF
  FF 00 00 00 00
  Handle 0xDA01, DMI type 218, 35 bytes
  OEM-specific Type
  Header and Data:
  DA 23 01 DA B2 00 17 4B 0E 38 00 10 F5 10 F5 00
  00 11 F5 11 F5 00 00 12 F5 12 F5 00 00 FF FF 00
  00 00 00
  Handle 0x0000, DMI type 0, 24 bytes
  BIOS Information
  Vendor: Dell Inc.
  Version: A17
  Release Date: 04/06/2010
  Address: 0xF0000
  Runtime Size: 64 kB
  ROM Size: 4096 kB
  Characteristics:
  PCI is supported
  PNP is supported
  APM is supported
  BIOS is upgradeable
  BIOS shadowing is allowed
  ESCD support is available
  Boot from CD is supported
  Selectable boot is supported
  EDD is supported
  Japanese floppy for Toshiba 1.2 MB is supported (int 13h)
  3.5"/720 kB floppy services are supported (int 13h)
  Print screen service is supported (int 5h)
  8042 keyboard services are supported (int 9h)
  Serial services are supported (int 14h)
  Printer services are supported (int 17h)
  ACPI is supported
  USB legacy is supported
  BIOS boot specification is supported
  Function key-initiated network boot is supported
  Targeted content distribution is supported
  BIOS Revision: 17.0
  Handle 0x0100, DMI type 1, 27 bytes
  System Information
  Manufacturer: Dell Inc.
  Product Name: OptiPlex 755
  Version: Not Specified
  UUID: 44454C4C-5900-1050-8033-C4C04F434731
  Wake-up Type: Power Switch
  SKU Number: Not Specified
  Family: Not Specified
  Handle 0x0200, DMI type 2, 8 bytes
  Base Board Information
  Manufacturer: Dell Inc.
  Product Name: 0PU052
  Version:
  Handle 0x0300, DMI type 3, 13 bytes
  Chassis Information
  Manufacturer: Dell Inc.
  Type: Space-saving
  Lock: Not Present
  Version: Not Specified
  Asset Tag:
  Boot-up State: Safe
  Power Supply State: Safe
  Thermal State: Safe
  Security Status: None
  Handle 0x0400, DMI type 4, 40 bytes
  Processor Information
  Socket Designation: CPU
  Type: Central Processor
  Family: Xeon
  Manufacturer: Intel
  ID: 76 06 01 00 FF FB EB BF
  Signature: Type 0, Family 6, Model 23, Stepping 6
  Flags:
  FPU (Floating-point unit on-chip)
  VME (Virtual mode extension)
  DE (Debugging extension)
  PSE (Page size extension)
  TSC (Time stamp counter)
  MSR (Model specific registers)
  PAE (Physical address extension)
  MCE (Machine check exception)
  CX8 (CMPXCHG8 instruction supported)
  APIC (On-chip APIC hardware supported)
  SEP (Fast system call)
  MTRR (Memory type range registers)
  PGE (Page global enable)
  MCA (Machine check architecture)
  CMOV (Conditional move instruction supported)
  PAT (Page attribute table)
  PSE-36 (36-bit page size extension)
  CLFSH (CLFLUSH instruction supported)
  DS (Debug store)
  ACPI (ACPI supported)
  MMX (MMX technology supported)
  FXSR (FXSAVE and FXSTOR instructions supported)
  SSE (Streaming SIMD extensions)
  SSE2 (Streaming SIMD extensions 2)
  SS (Self-snoop)
  HTT (Multi-threading)
  TM (Thermal monitor supported)
  PBE (Pending break enabled)
  Version: Not Specified
  Voltage: 0.0 V
  External Clock: 1333 MHz
  Max Speed: 5200 MHz
  Current Speed: 2666 MHz
  Status: Populated, Enabled
  Upgrade: Socket LGA775
  L1 Cache Handle: 0x0700
  L2 Cache Handle: 0x0701
  L3 Cache Handle: Not Provided
  Serial Number: Not Specified
  Asset Tag: Not Specified
  Part Number: Not Specified
  Core Count: 2
  Core Enabled: 2
  Thread Count: 2
  Characteristics:
  64-bit capable
  Handle 0x0700, DMI type 7, 19 bytes
  Cache Information
  Socket Designation: Not Specified
  Configuration: Enabled, Not Socketed, Level 1
  Operational Mode: Write Back
  Location: Internal
  Installed Size: 32 kB
  Maximum Size: 32 kB
  Supported SRAM Types:
  Other
  Installed SRAM Type: Other
  Speed: Unknown
  Error Correction Type: None
  System Type: Data
  Associativity: 8-way Set-associative
  Handle 0x0701, DMI type 7, 19 bytes
  Cache Information
  Socket Designation: Not Specified
  Configuration: Enabled, Not Socketed, Level 2
  Operational Mode: Varies With Memory Address
  Location: Internal
  Installed Size: 6144 kB
  Maximum Size: 6144 kB
  Supported SRAM Types:
  Other
  Installed SRAM Type: Other
  Speed: Unknown
  Error Correction Type: Single-bit ECC
  System Type: Unified
  Associativity: <OUT OF SPEC>
  Handle 0x0800, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: PARALLEL
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: DB-25 female
  Port Type: Parallel Port PS/2
  Handle 0x0801, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: SERIAL1
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: DB-9 male
  Port Type: Serial Port 16550A Compatible
  Handle 0x0802, DMI type 126, 9 bytes
  Inactive
  Handle 0x0803, DMI type 126, 9 bytes
  Inactive
  Handle 0x0804, DMI type 126, 9 bytes
  Inactive
  Handle 0x0805, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: USB1
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Access Bus (USB)
  Port Type: USB
  Handle 0x0806, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: USB2
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Access Bus (USB)
  Port Type: USB
  Handle 0x0807, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: USB3
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Access Bus (USB)
  Port Type: USB
  Handle 0x0808, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: USB4
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Access Bus (USB)
  Port Type: USB
  Handle 0x0809, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: USB5
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Access Bus (USB)
  Port Type: USB
  Handle 0x080A, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: USB6
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Access Bus (USB)
  Port Type: USB
  Handle 0x080B, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: USB7
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Access Bus (USB)
  Port Type: USB
  Handle 0x080C, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: USB8
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Access Bus (USB)
  Port Type: USB
  Handle 0x080D, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: ENET
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: RJ-45
  Port Type: Network Port
  Handle 0x080E, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: MIC
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Mini Jack (headphones)
  Port Type: Audio Port
  Handle 0x080F, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: LINE-OUT
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Mini Jack (headphones)
  Port Type: Audio Port
  Handle 0x0810, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: LINE-IN
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Mini Jack (headphones)
  Port Type: Audio Port
  Handle 0x0811, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: HP-OUT
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: Mini Jack (headphones)
  Port Type: Audio Port
  Handle 0x0812, DMI type 8, 9 bytes
  Port Connector Information
  Internal Reference Designator: MONITOR
  Internal Connector Type: None
  External Reference Designator: Not Specified
  External Connector Type: DB-15 female
  Port Type: Video Port
  Handle 0x090A, DMI type 9, 13 bytes
  System Slot Information
  Designation: SLOT1
  Type: x1 Proprietary
  Current Usage: In Use
  Length: Long
  Characteristics:
  PME signal is supported
  Handle 0x0901, DMI type 126, 13 bytes
  Inactive
  Handle 0x0902, DMI type 9, 13 bytes
  System Slot Information
  Designation: SLOT2
  Type: 32-bit PCI
  Current Usage: Available
  Length: Long
  ID: 2
  Characteristics:
  5.0 V is provided
  3.3 V is provided
  PME signal is supported
  Handle 0x0903, DMI type 126, 13 bytes
  Inactive
  Handle 0x0904, DMI type 126, 13 bytes
  Inactive
  Handle 0x0905, DMI type 126, 13 bytes
  Inactive
  Handle 0x0906, DMI type 126, 13 bytes
  Inactive
  Handle 0x0907, DMI type 126, 13 bytes
  Inactive
  Handle 0x0908, DMI type 126, 13 bytes
  Inactive
  Handle 0x0A00, DMI type 10, 6 bytes
  On Board Device Information
  Type: Video
  Status: Disabled
  Description: Intel Graphics Media Accelerator 950
  Handle 0x0A02, DMI type 10, 6 bytes
  On Board Device Information
  Type: Ethernet
  Status: Enabled
  Description: Intel Gigabit Ethernet Controller
  Handle 0x0A03, DMI type 10, 6 bytes
  On Board Device Information
  Type: Sound
  Status: Enabled
  Description: Intel(R) High Definition Audio Controller
  Handle 0x0B00, DMI type 11, 5 bytes
  OEM Strings
  String 1: www.dell.com
  Handle 0x0D00, DMI type 13, 22 bytes
  BIOS Language Information
  Language Description Format: Long
  Installable Languages: 1
  en|US|iso8859-1
  Currently Installed Language: en|US|iso8859-1
  Handle 0x0F00, DMI type 15, 29 bytes
  System Event Log
  Area Length: 2049 bytes
  Header Start Offset: 0x0000
  Header Length: 16 bytes
  Data Start Offset: 0x0010
  Access Method: Memory-mapped physical 32-bit address
  Access Address: 0xFFF01000
  Status: Valid, Not Full
  Change Token: 0x00000018
  Header Format: Type 1
  Supported Log Type Descriptors: 3
  Descriptor 1: POST error
  Data Format 1: POST results bitmap
  Descriptor 2: System limit exceeded
  Data Format 2: System management
  Descriptor 3: Log area reset/cleared
  Data Format 3: None
  Handle 0x1000, DMI type 16, 15 bytes
  Physical Memory Array
  Location: System Board Or Motherboard
  Use: System Memory
  Error Correction Type: None
  Maximum Capacity: 8 GB
  Error Information Handle: Not Provided
  Number Of Devices: 4
  Handle 0x1100, DMI type 17, 27 bytes
  Memory Device
  Array Handle: 0x1000
  Error Information Handle: Not Provided
  Total Width: 64 bits
  Data Width: 64 bits
  Size: 1024 MB
  Form Factor: DIMM
  Set: None
  Locator: DIMM_1
  Bank Locator: Not Specified
  Type: DDR2
  Type Detail: Synchronous
  Speed: 667 MHz
  Manufacturer: AD00000000000000
  Handle 0x1101, DMI type 17, 27 bytes
  Memory Device
  Array Handle: 0x1000
  Error Information Handle: Not Provided
  Total Width: 64 bits
  Data Width: 64 bits
  Size: 1024 MB
  Form Factor: DIMM
  Set: None
  Locator: DIMM_3
  Bank Locator: Not Specified
  Type: DDR2
  Type Detail: Synchronous
  Speed: 667 MHz
  Handle 0x1102, DMI type 17, 27 bytes
  Memory Device
  Array Handle: 0x1000
  Error Information Handle: Not Provided
  Total Width: 64 bits
  Data Width: 64 bits
  Size: 1024 MB
  Form Factor: DIMM
  Set: None
  Locator: DIMM_2
  Bank Locator: Not Specified
  Type: DDR2
  Type Detail: Synchronous
  Speed: 667 MHz
  Handle 0x1103, DMI type 17, 27 bytes
  Memory Device
  Array Handle: 0x1000
  Error Information Handle: Not Provided
  Total Width: 64 bits
  Data Width: 64 bits
  Size: 1024 MB
  Form Factor: DIMM
  Set: None
  Locator: DIMM_4
  Bank Locator: Not Specified
  Type: DDR2
  Type Detail: Synchronous
  Speed: 667 MHz
  Handle 0x1300, DMI type 19, 15 bytes
  Memory Array Mapped Address
  Starting Address: 0x00000000000
  Ending Address: 0x000FDFFFFFF
  Range Size: 4064 MB
  Physical Array Handle: 0x1000
  Partition Width: 1
  Handle 0x1400, DMI type 20, 19 bytes
  Memory Device Mapped Address
  Starting Address: 0x00000000000
  Ending Address: 0x0007FFFFFFF
  Range Size: 2 GB
  Physical Device Handle: 0x1100
  Memory Array Mapped Address Handle: 0x1300
  Partition Row Position: 1
  Interleave Position: 1
  Interleaved Data Depth: 1
  Handle 0x1401, DMI type 20, 19 bytes
  Memory Device Mapped Address
  Starting Address: 0x00080000000
  Ending Address: 0x000FDFFFFFF
  Range Size: 2016 MB
  Physical Device Handle: 0x1101
  Memory Array Mapped Address Handle: 0x1300
  Partition Row Position: 1
  Interleave Position: 1
  Interleaved Data Depth: 1
  Handle 0x1402, DMI type 20, 19 bytes
  Memory Device Mapped Address
  Starting Address: 0x00000000000
  Ending Address: 0x0007FFFFFFF
  Range Size: 2 GB
  Physical Device Handle: 0x1102
  Memory Array Mapped Address Handle: 0x1300
  Partition Row Position: 1
  Interleave Position: 2
  Interleaved Data Depth: 1
  Handle 0x1403, DMI type 20, 19 bytes
  Memory Device Mapped Address
  Starting Address: 0x00080000000
  Ending Address: 0x000FDFFFFFF
  Range Size: 2016 MB
  Physical Device Handle: 0x1103
  Memory Array Mapped Address Handle: 0x1300
  Partition Row Position: 1
  Interleave Position: 2
  Interleaved Data Depth: 1
  Handle 0x1410, DMI type 126, 19 bytes
  Inactive
  Handle 0x1800, DMI type 24, 5 bytes
  Hardware Security
  Power-On Password Status: Enabled
  Keyboard Password Status: Not Implemented
  Administrator Password Status: Enabled
  Front Panel Reset Status: Not Implemented
  Handle 0x1900, DMI type 25, 9 bytes
  System Power Controls
  Next Scheduled Power-on: *-* 00:00:00
  Handle 0x1B10, DMI type 27, 12 bytes
  Cooling Device
  Type: Fan
  Status: OK
  OEM-specific Information: 0x0000DD00
  Handle 0x1B11, DMI type 27, 12 bytes
  Cooling Device
  Type: Fan
  Status: OK
  OEM-specific Information: 0x0000DD01
  Handle 0x1B12, DMI type 126, 12 bytes
  Inactive
  Handle 0x1B13, DMI type 126, 12 bytes
  Inactive
  Handle 0x1B14, DMI type 126, 12 bytes
  Inactive
  Handle 0x2000, DMI type 32, 11 bytes
  System Boot Information
  Status: No errors detected
  Handle 0x8100, DMI type 129, 8 bytes
  OEM-specific Type
  Header and Data:
  81 08 00 81 01 01 02 01
  Strings:
  Intel_ASF
  Intel_ASF_001
  Handle 0x8200, DMI type 130, 20 bytes
  OEM-specific Type
  Header and Data:
  82 14 00 82 24 41 4D 54 01 01 00 00 01 A5 0B 02
  00 00 00 00
  Handle 0x8300, DMI type 131, 64 bytes
  OEM-specific Type
  Header and Data:
  83 40 00 83 14 00 00 00 00 00 C0 29 05 00 00 00
  F8 00 4E 24 00 00 00 00 0D 00 00 00 02 00 03 00
  19 04 14 00 01 00 01 02 C8 00 BD 10 00 00 00 00
  00 00 00 00 FF 00 00 00 00 00 00 00 00 00 00 00
  Handle 0x8800, DMI type 136, 6 bytes
  OEM-specific Type
  Header and Data:
  88 06 00 88 5A 5A
  Handle 0xD000, DMI type 208, 10 bytes
  OEM-specific Type
  Header and Data:
  D0 0A 00 D0 01 03 FE 00 11 02
  Handle 0xD100, DMI type 209, 12 bytes
  OEM-specific Type
  Header and Data:
  D1 0C 00 D1 78 03 07 03 04 0F 80 05
  Handle 0xD200, DMI type 210, 12 bytes
  OEM-specific Type
  Header and Data:
  D2 0C 00 D2 F8 03 04 03 06 80 04 05
  Handle 0xD201, DMI type 126, 12 bytes
  Inactive
  Handle 0xD400, DMI type 212, 242 bytes
  OEM-specific Type
  Header and Data:
  D4 F2 00 D4 70 00 71 00 00 10 2D 2E 42 00 11 FE
  01 43 00 11 FE 00 0F 00 25 FC 00 10 00 25 FC 01
  11 00 25 FC 02 12 00 25 FC 03 00 00 25 F3 00 00
  00 25 F3 04 00 00 25 F3 08 00 00 25 F3 0C 07 00
  23 8F 00 08 00 23 F3 00 09 00 23 F3 04 0A 00 23
  F3 08 0B 00 23 8F 10 0C 00 23 8F 20 0E 00 23 8F
  30 0D 00 23 8C 40 A6 00 23 8C 41 A7 00 23 8C 42
  05 01 22 FD 02 06 01 22 FD 00 8C 00 22 FE 00 8D
  00 22 FE 01 9B 00 25 3F 40 9C 00 25 3F 00 09 01
  25 3F 80 A1 00 26 F3 00 A2 00 26 F3 08 A3 00 26
  F3 04 9F 00 26 FD 02 A0 00 26 FD 00 9D 00 11 FB
  04 9E 00 11 FB 00 54 01 23 7F 00 55 01 23 7F 80
  5C 00 78 BF 40 5D 00 78 BF 00 04 80 78 F5 0A 01
  A0 78 F5 00 93 00 7B 7F 80 94 00 7B 7F 00 8A 00
  37 DF 20 8B 00 37 DF 00 03 C0 67 00 05 FF FF 00
  00 00
  Handle 0xD401, DMI type 212, 172 bytes
  OEM-specific Type
  Header and Data:
  D4 AC 01 D4 70 00 71 00 03 40 59 6D 2D 00 59 FC
  02 2E 00 59 FC 00 6E 00 59 FC 01 E0 01 59 FC 03
  28 00 59 3F 00 29 00 59 3F 40 2A 00 59 3F 80 2B
  00 5A 00 00 2C 00 5B 00 00 55 00 59 F3 00 6D 00
  59 F3 04 8E 00 59 F3 08 8F 00 59 F3 00 00 00 55
  FB 04 00 00 55 FB 00 23 00 55 7F 00 22 00 55 7F
  80 F5 00 58 BF 40 F6 00 58 BF 00 EB 00 55 FE 00
  EA 00 55 FE 01 40 01 54 EF 00 41 01 54 EF 10 ED
  00 54 F7 00 F0 00 54 F7 08 4A 01 53 DF 00 4B 01
  53 DF 20 4C 01 53 7F 00 4D 01 53 7F 80 68 01 56
  BF 00 69 01 56 BF 40 FF FF 00 00 00
  Handle 0xD402, DMI type 212, 152 bytes
  OEM-specific Type
  Header and Data:
  D4 98 02 D4 70 00 71 00 00 10 2D 2E 2D 01 21 FE
  01 2E 01 21 FE 00 97 00 22 FB 00 98 00 22 FB 04
  90 00 11 CF 00 91 00 11 CF 20 92 00 11 CF 10 E2
  00 27 7F 00 E3 00 27 7F 80 E4 00 27 BF 00 E5 00
  27 BF 40 D1 00 22 7F 80 D2 00 22 7F 00 45 01 22
  BF 40 44 01 22 BF 00 36 01 21 F1 06 37 01 21 F1
  02 38 01 21 F1 00 39 01 21 F1 04 2B 01 11 7F 80
  2C 01 11 7F 00 4E 01 65 CF 00 4F 01 65 CF 10 D4
  01 65 F3 00 D5 01 65 F3 04 D2 01 65 FC 00 D3 01
  65 FC 01 FF FF 00 00 00
  Handle 0xD403, DMI type 212, 157 bytes
  OEM-specific Type
  Header and Data:
  D4 9D 03 D4 70 00 71 00 03 40 59 6D 17 01 52 FE
  00 18 01 52 FE 01 19 01 52 FB 00 1A 01 52 FB 04
  1B 01 52 FD 00 1C 01 52 FD 02 1D 01 52 F7 00 1E
  01 52 F7 08 1F 01 52 EF 00 20 01 52 EF 10 21 01
  52 BF 00 22 01 52 BF 40 87 00 59 DF 20 88 00 59
  DF 00 E8 01 66 FD 00 E9 01 66 FD 02 02 02 53 BF
  00 03 02 53 BF 40 04 02 53 EF 00 05 02 53 EF 10
  06 02 66 DF 00 07 02 66 DF 20 08 02 66 EF 00 09
  02 66 EF 10 17 02 66 F7 00 18 02 66 F7 08 44 02
  52 BF 40 45 02 52 BF 00 FF FF 00 00 00
  Handle 0xD800, DMI type 126, 9 bytes
  Inactive
  Handle 0xDD00, DMI type 221, 19 bytes
  OEM-specific Type
  Header and Data:
  DD 13 00 DD 00 01 00 00 00 10 F5 00 00 00 00 00
  00 00 00
  Handle 0xDD01, DMI type 221, 19 bytes
  OEM-specific Type
  Header and Data:
  DD 13 01 DD 00 01 00 00 00 11 F5 00 00 00 00 00
  00 00 00
  Handle 0xDD02, DMI type 221, 19 bytes
  OEM-specific Type
  Header and Data:
  DD 13 02 DD 00 01 00 00 00 12 F5 00 00 00 00 00
  00 00 00
  Handle 0xDE00, DMI type 222, 16 bytes
  OEM-specific Type
  Header and Data:
  DE 10 00 DE C1 0B 00 00 10 05 19 21 01 00 00 01
  Handle 0x7F00, DMI type 127, 4 bytes
  End Of Table
  Hdparm also does not tell me the max data transfer rate (disk speed) of my current drive although this link : www.wdc.com/en/library/sata/2879-001146.pdf  says that it is 3.0Gb/s
  and here's hdparm -I /dev/sda
  /dev/sda:
  ATA device, with non-removable media
  Model Number: WDC WD800JD-75JNC0
  Firmware Revision: 06.01C06
  Standards:
  Supported: 6 5 4
  Likely used: 8
  Configuration:
  Logical max current
  cylinders 16383 16383
  heads 16 16
  sectors/track 63 63
  CHS current addressable sectors: 16514064
  LBA user addressable sectors: 156250000
  Logical/Physical Sector size: 512 bytes
  device size with M = 1024*1024: 76293 MBytes
  device size with M = 1000*1000: 80000 MBytes (80 GB)
  cache/buffer size = 8192 KBytes
  Capabilities:
  LBA, IORDY(can be disabled)
  Standby timer values: spec'd by Standard, with device specific minimum
  R/W multiple sector transfer: Max = 16 Current = 8
  Recommended acoustic management value: 128, current value: 254
  DMA: mdma0 mdma1 mdma2 udma0 udma1 udma2 udma3 udma4 *udma5
  Cycle time: min=120ns recommended=120ns
  PIO: pio0 pio1 pio2 pio3 pio4
  Cycle time: no flow control=120ns IORDY flow control=120ns
  Commands/features:
  Enabled Supported:
  * SMART feature set
  Security Mode feature set
  * Power Management feature set
  * Write cache
  * Look-ahead
  * Host Protected Area feature set
  * WRITE_BUFFER command
  * READ_BUFFER command
  * DOWNLOAD_MICROCODE
  SET_MAX security extension
  Automatic Acoustic Management feature set
  * Device Configuration Overlay feature set
  * Mandatory FLUSH_CACHE
  * SMART error logging
  * SMART self-test
  * Gen1 signaling speed (1.5Gb/s)
  * Host-initiated interface power management
  * SMART Command Transport (SCT) feature set
  * SCT Long Sector Access (AC1)
  * SCT LBA Segment Access (AC2)
  * SCT Error Recovery Control (AC3)
  * SCT Features Control (AC4)
  * SCT Data Tables (AC5)
  Security:
  Master password revision code = 65534
  supported
  not enabled
  not locked
  frozen
  not expired: security count
  not supported: enhanced erase
  Checksum: correct
  Last edited by Inxsible (2011-03-27 04:40:49)

  I just checked my BIOS and my current setting is set at IDE although it also mentions that the default should be AHCI. Currently I have a dual boot of Windows 7 (need it for Tax software) and Arch
  So I guess, when I get the new HDD, I will first set it to AHCI and then install the OSes on it. See if NCQ helps any, and if not I will turn it back and re-install (if I have to). I am planning to have Windows only in virtualbox in the new drive.
  Anyhoo, while I was in the BIOS I found two things which I had questions about :
  1) Under Onboard Devices --> Integrated NIC , my setting is currently set at "On w/PXE" and it says the default should be just "On". Would it be ok to change it back to On since its a single machine and its not booting an OS on any server. I just don't want to have to re-install anything now since I will be doing that in the new HDD.
  2) How would I know whether my BIOS would support a 64 bit OS in Virtualbox? I checked some setting under Virtualization, but they weren't very clear.
  I will edit this post and let you know exactly what settings were present under the Virtualization sub-section.

• Gigabit ethernet + TC doesn't mean gigabit transfer rates to the TC drive..

  Alright.... I've spent a ton of time trying to figure this out (probably more than I should have) and I thought I'd post my findings so that either a) I'll save someone else time out there or b) someone can tell me I'm a complete moron
  So I had an airport extreme. I replaced it with a Time Capsule. I have a Windows (boooo) PC connecting directly to my TC using a gigabit ethernet card (which I bought specifically connect it to the TC) so (I thought) I could enjoy gigabit transfer speeds to the internal hard drive from the wired PC. I had some fun plans of shoving my itunes directory on the TC and letting appletv sync (yes through my pc) and keeping lots of videos there, etc. Who cares - it'd be at gigabit speeds! But, in reality, things didn't quite work that way (though my itunes directory does still live on my TC...for now).
  Well, I had a semi-unique situation to do some pretty massive testing because I have 2 gigabit network cards, 1 100mb network card, and a wireless-n network card and two internal hard drives - both very fast. I also tried Cat 5, Cat 5e, and a Cat 6 cable.
  And here's what I (think I) figured out:
  The hard drive in TC can not achieve gigabit transfer speeds. Your transfer rates will be limited by the IO to the hard drive. In fact, it can't even come close.
  Using my "fastest" setup - so Cat 6, fastest internal drive, gigabit ethernet, and transferring a file exactly 1 gig in size I was able to have a sustained transfer rate of 140 megabit per second - that's 17.4 MB/s for folks not wanting to do the math (that's reading FROM the TC. Writing TO the TC dropped the speed down to 106 megabit/second or 13.35 MB/s). Going to a 5e cable knocked that down to 130 megabit a second. Putting in a Cat 5 cable knocked me down to 110 megabit a second. Switching between my two gigabit network cards did nothing. Switching my cards between two computers did nothing.
  Now, just changing the above setup to use my 100Mb network card resulted in these results: 67 megabit read (8.4MB/s) and 65 megabit write (8MB/s)...
  And using wireless N, I got about 10MB/s up and down.
  And just as a final test, connecting my two computers together using the 2 gigabit network cards through the TC, I was able to achieve standard gigabit speeds.
  SO what does this all mean?
  I think the IO to the hard drive in the TC can only read at about 140 megabit/s and write at about 110 megabit/s. I'm not sure if it's the HD itself or how it's connecting to the TC - but that's why I'm not aware of anyone getting faster transfer rates to the drive in the TC (maybe you guys are?). The gigabit ports themselves are fine - and if you're doing anything from one gigabit port to another gigabit port you'll be fine.
  So stop beating yourself up trying to find some elusive XP specific issue with gigabit transfer rates (though vista had a problem - shocker), or that you must have a defective gigabit card (which is why I have two cards now instead of one :)), or that your cable must be bad ("maybe my cat 5e isn't good enough?")... it's just this drive ... or how the drive is connecting to the network - can't handle the gigabit speeds.
  Unless someone else out there has another explanation? Do these speeds mesh with what you're seeing in "optimal" situations? Or maybe there's just a throttle switch for goobers like me using Windows instead of MacOS!

  Hi,
  the interfaces available today which connect your drives integrated electronics to your computer can handle that speeds. but the drive itself is limited by the mechanical things going on in there
  You can get such transfer speeds if the data you request is in the cache of the drives internal electronics for example. Some drives have 8 MB of cache memory. So if you request to read or write less than 8 mb and (in the read case) you are lucky enough to have those few megabytes cached then you may get that performance
  Regards,
  somi

• How to achieve the maximum file transfer rate from PXI to local host?

  I will have to copy a huge amount of data (as big as 50 GB) from a PXI-8106 unit on site to a laptop. Currently it would take several hours. It is critical to max out the data transfer rate.
  The standard method we've been using is just drag and drop using Windows Explorer via FTP. I tried to use FTP VIs with Filezilla Server as well but the transfer rate is only like 1.5 MB/s. Is this normal? Once I saw it was 3.0 MB/s but for some reason, that isn't happening now.
  For another option, I tried to transfer data to a USB flash drive but it's even slower. As far as I know, USB 2.0 transfer rate is supposed to be around 60 MB/s but why would it be slower than 1.5 MB/s? What could be the speed limiting factor in my file transfer setup?
  Any tips on improving file transfer rate would be appreciated!

  Sustained 40 MB/s? That is my dream speed! The maximum speed I've ever seen here was about 25 MB/s, which is still very good, and that happened only after copying back and forth, which I explained above. Let me go through what I did with screencaps first.
  These are the test tdms files to transfer in the PXI: an original file witten in the PXI and its copy file. I copied the original file from PXI to laptop and renamed it (added '_copy') and then copied it back to PXI.
  FTP module is transferring the original file to the Filezilla server on laptop. Note the low speed.
  FTP module is transferring the copy file to the Filezilla server on laptop. Note the higher speed.
  This is the FTP sub VI I'm using. It transfers files in sub-folders (one level lower), too. The data connection is set to 'passive' on the FTP Put Multiple Files VI but it doesn't seem to make any difference. I attach the sub VI.
  You tried the file transfer with a 500 MB text file. Would there be any difference if the file type was tdms? Would the RAM size matter? It is 2GB here.
  And the LED is orange, which means Gigabit.
  Another question: Is there any way to programmatically stop file transfer in progress? Currently, I just have to restart the PXI.
  Thank you!
  Attachments:
  FTP.vi ‏40 KB