If this is your first visit, be sure to check out the FAQ by clicking the link above. You may have to register before you can post: click the register link above to proceed. To start viewing messages, select the forum that you want to visit from the selection below. |
|
|
Thread Tools | Display Modes |
#1
|
|||
|
|||
Confused over AMD PR rating
I have a XP1900 which I believe runs at 1.6Ghz, I have now also a XP2400 which runs at 2.0Ghz.
Am I right in assuming the 2400 is a worthy upgrade to the 1900 and the Palomino/Throughbred issue is confusing also. Which chip is which. I know the XP2400 has a 256K L2 but not sure about the XP1900. Apologies for ignorance. |
#2
|
|||
|
|||
"Ed" wrote in message ... On Mon, 26 Jan 2004 12:08:21 -0600, wrote: I have a XP1900 which I believe runs at 1.6Ghz, I have now also a XP2400 which runs at 2.0Ghz. Am I right in assuming the 2400 is a worthy upgrade to the 1900 and the Palomino/Throughbred issue is confusing also. Which chip is which. I know the XP2400 has a 256K L2 but not sure about the XP1900. 1900+ also has 256K L2. Apologies for ignorance. This program may help, http://www.cpuid.com/cpuz.php#download AMD OPN codes here http://www.amdboard.com/amdid.html Ed Let's just throw in different cores and transistor counts for fun and confusion! 1500+AX1500DMT3C = 1333MHz Palomino (Model 6) 266FSB (133.3 x 10), 256K cache, 1.75V, 90ºC Max Die Temp 1600+AX1600DMT3C = 1400MHz Palomino (Model 6) 266FSB (133.3 x 10.5), 256K cache, 1.75V, 90ºC Max Die Temp 1700+AX1700DMT3C = 1467MHz Palomino (Model 6) 266FSB (133.3 x 11), 256K cache, 1.75V, 90ºC Max Die Temp AXDA1700DLT3C = 1467MHz Tbred (Model 8) 266FSB (133.3 x 11), 256K cache, 1.5V, 90ºC Max Die Temp 1800+AX1800DMT3C = 1533MHz Palomino (Model 6) 266FSB (133.3 x 11.5), 256K cache, 1.75V, 90ºC Max Die Temp AXDA1800DLT3C = 1533MHz Tbred (Model 8) 266FSB (133.3 x 11.5), 256K cache, 1.5V, 90ºC Max Die Temp 1900+AX1900DMT3C = 1600MHz Palomino (Model 6) 266FSB (133.3 x 12), 1.75V, 256K cache, 90ºC Max Die Temp AXDA1900DLT3C = 1600MHz Tbred (Model 8) 266FSB (133.3 x 12), 256K cache, 1.5V, 90ºC Max Die Temp 2000+AX2000DMT3C = 1667MHz Palomino (Model 6) 266FSB (133.3 x 12.5), 1.75V, 256K cache, 90ºC Max Die Temp AXDA2000DKT3C = 1667MHz Tbred (Model 8) 266FSB (133.3 x 12.5), 256K cache, 1.65V, 90ºC Max Die Temp AXDA2000DUT3C = 1667MHz Tbred (Model 8) 266FSB (133.3 x 12.5), 256K cache, 1.6V, 90ºC Max Die Temp AXDC2000DUT3C = 1667MHz Thorton (Model 10) 266FSB (133.3 x 12.5), 256K cache, 1.6V, 90ºC Max Die Temp 2100+AX2100DMT3C = 1733MHz Palomino (Model 6) 266FSB (133.3 x 13), 256K cache, 1.75V, 90ºC Max Die Temp AXDA2100DUT3C = 1733MHz Tbred (Model 8) 266FSB (133.3 x 13), 256K cache, 1.6V, 90ºC Max Die Temp 2200+AXDA2200DKV3C = 1800MHz Tbred (Model 8) 266FSB (133.3 x 13.5), 256K cache, 1.65V, 85ºC Max Die Temp AXDA2200DUV3C = 1800MHz Tbred (Model 8) 266FSB (133.3 x 13.5), 256K cache, 1.6V, 85ºC Max Die Temp AXDC2200DUV3C = 1800MHz Thorton (Model 10) 266FSB (133.3 x 13.5), 256K cache, 1.6V, 85ºC Max Die Temp 2400+AXDA2400DKV3C = 2000MHz Tbred (Model 8) 266FSB (133.3 x 15), 256K cache, 1.65V, 85ºC Max Die Temp AXDA2400DUV3C = 2000MHz Tbred (Model 8) 266FSB (133.3 x 15), 256K cache, 1.6V, 85ºC Max Die Temp AXDC2400DUV3C = 2000MHz Thorton (Model 10) 266FSB (133.3 x 15), 256K cache, 1.6V, 85ºC Max Die Temp 2500+AXDA2500DKV4D = 1833MHz Barton (Model 10) 333FSB (166.6 x 11), 512K cache, 1.65V, 85ºC Max Die Temp 2600+AXDA2600DKV3C = 2133MHz Tbred (Model 8) 266FSB (133.3 x 16), 256K cache, 1.65V, 85ºC Max Die Temp AXDA2600DKV3D = 2083MHz Tbred (Model 8) 333FSB (166.6 x 12.5), 256K cache, 1.65V, 85ºC Max Die Temp 2700+AXDA2700DKV3D = 2167MHz Tbred (Model 8) 333FSB (166.6 x 13), 256K cache, 1.65V, 85ºC Max Die Temp 2800+AXDA2800DKV4D = 2083MHz Barton (Model 10) 333FSB (166.6 x 12.5), 512K cache, 1.65V, 85ºC Max Die Temp 3000+AXDA3000DKV4D = 2167MHz Barton (Model 10) 333FSB (166.6 x 13), 512K cache, 1.65V, 85ºC Max Die Temp AXDA3000DKV4E = 2064MHz Barton (Model 10) 400FSB (196.6 x 10.5), 512K cache, 1.65V, 85ºC Max Die Temp 3200+AXDA3200DKV4E = 2163MHz Barton (Model 10) 400FSB (196.6 x 11), 512K cache, 1.65V, 85ºC Max Die Temp --TW |
#3
|
|||
|
|||
Upgrading to the 2400+ will depend on the price and how much cash you have
on hand. To calculate your gain in performance divide the old processor clockrate by the new processor and then multiply it by an average job time. For example, if you have jobs that run in 60 s, the upgrade chip will take 48 s, and you will save your self 12 s. You then can figure out if the 12 s, you saved is worth the extra cost. Of course, everything never scales so simply. This simple formula is optimistic and you may not do as well with time-savings. Someone told me once that money isn't important, it is the lack of money that matters. Pete wrote in message ... I have a XP1900 which I believe runs at 1.6Ghz, I have now also a XP2400 which runs at 2.0Ghz. Am I right in assuming the 2400 is a worthy upgrade to the 1900 and the Palomino/Throughbred issue is confusing also. Which chip is which. I know the XP2400 has a 256K L2 but not sure about the XP1900. Apologies for ignorance. |
Thread Tools | |
Display Modes | |
|
|
Similar Threads | ||||
Thread | Thread Starter | Forum | Replies | Last Post |
What PSU rating for Athlon 2400 with 6 HDDs? | Apollo | General | 6 | October 18th 04 12:39 PM |
Confused | Daniel P | AMD x86-64 Processors | 1 | April 28th 04 01:51 PM |
Confused about RAM types and Athlon64? | Daniel | Overclocking AMD Processors | 16 | February 23rd 04 05:11 AM |
AGP drivers, video drivers, DirectX - confused | bobby | General | 3 | February 6th 04 06:44 PM |
What is equivalent rating? | Mick Beeby | Overclocking AMD Processors | 1 | December 3rd 03 10:13 PM |