majorRager,
Your temperatures aren't even close to being a concern, however, you can't draw any conclusions until you properly test your rig.
Overclocking and temperatures are all about specification, so it's very importent to be specific, otherwise temperatures make about as much sense as comparing apples to oranges thermal fruit salad in a blender!
For everyone's benefit, I am posting the following information. My objective is to assure that enthusiasts understand Intel's specifications, standards and test methods, so they can better decide how to apply and manage their overclocking options.
From Intel's
Processor Spec Finder -
http://processorfinder.intel.com/details.aspx?sSpec=SLB8V
Q9550 E0 and C0 variants:
Vcore Max 1.5v
Tcase Max (CPU temperature) 71c
Tjunction (Core temperature) 76c
From the
Core i7 and Core 2 Temperature Guide -
http://www.tomshardware.com/forum/221745-29-sticky-core-core-temperature-guide
"
Section 1: Introduction
Core i and Core 2 processors have
2 different types of temperature sensors; a CPU case (not computer case) Thermal Diode centered under the Cores, and
Digital
Thermal
Sensors located on each Core. The case Thermal Diode measures
Tcase (
Temperature
case), which is CPU temperature, and the
Digital
Thermal
Sensors measure
Tjunction (
Temperature
junction), which is Core temperature. Since these sensors measure
2 distinct thermal levels, there is a
5c temperature difference between them, which is
Tcase to
Tjunction Gradient. Core i7’s / i5’s and Core 2 Quad’s have
1 Tcase and
4 Tjunction sensors, while Core 2 Duo's have
1 Tcase and
2 Tjunction sensors ...
... The monitoring utilities provided by motherboard manufacturers monitor CPU temperature, while some popular freeware utilities monitor Core temperatures ... Real Temp ... is recommended for users interested in monitoring Core temperatures only ... SpeedFan monitors
Tcase (CPU temperature)
and Tjunction (Core temperature) ... "
The Thermal Specification shown in Intel's Processor Spec Finder is Tcase Max (CPU) not Tjunction (Core), which is a very common misconception among most enthusiasts. Since there's a 5c gradient between the CPU sensor and the Core sensors, (shown in the following Intel document) -
http://arxiv.org/ftp/arxiv/papers/0709/0709.1861.pdf - just add 5c to the value shown in the Spec Finder to determine the corresponding Core temperature, which is 76c for the Q9550 variants.
Intel's second and frequently misunderstood Thermal Specification, Tjunction Max, (100c for the Q9550 variants) applies to overtemp protection such as Throttle and Shutdown, so you don't toast your transistors. As such, any Q9550 temperatures which exceed 76c should be considered "overtemp". Further, when specifications are exceeded, then processor degradation becomes a concern, which is explained in the following AnandTech article -
http://anandtech.com/cpuchipsets/intel/showdoc.aspx?i=3251&p=6
Prime95 Small FFT's is the Standard for processor thermal testing, because it's a steady-state 100% workload which yields steady-state temperatures, whereas Blend is a memory cyclic workload which yields fluctuating processor temperatures. Small FFT's will reach 97% thermal saturation within 7 to 8 minutes, so a 10 minute test is adequate. Thermal testing should be conducted as close as possible to 22c (72f) Standard ambient, with case covers removed, the computer clear of any desk enclosures, and all fans at 100% RPM to eliminate cooling variables, and to produce consistent and repeatable results for comparisons. If the Gradient between CPU temperature and "mean" (average) Core temperature is not ~ 5c, then BIOS is incorrectly coded. CPU temperature
and Core temperatures can be individually calibrated in SpeedFan by following the Calibrations Section in the Temperature Guide.
OCCT and Burn Test (reminiscent of TAT) use LinPack, which shows thermal signatures that resemble the ups and downs of a bad day on the stock market, and cycle between light workloads, through test segments which spray all processor registers with all one's, (100%
thermal load, which equates to 115%
workload), and can push an overclocked Q9550 at Vcore Max 1.5 right on past Tcase Max!
Since there are very few applications or games that will spike, let alone sustain processor workloads beyond 70% to 85%, utilities which load all registers with all one's are not representative of real-world computing. While these utilities are certainly very useful for stability testing, they are inappropriate for thermal testing. The 3DMark benches are excellent for stability testing, as are applications for ripping and encoding.
To make sense of CPU temperature and Core temperature, compare them to a 4 cylinder car that has 5 temperature guages; 4 of the guages are cyclinder head temperatures (closest to the heat source), and the 5th guage is the overall engine temperature, which is 5c lower than the other guages, and is the temperature guage with which we're all familiar. We know that red-line for the Q9550 is 71c (Tcase Max) on the engine temp guage and 76c (Tjunction) on the cylinder head temp guages, but if we push the engine too hard and peg all the guages, (95c Tcase overtemp / 100c Tjunction Max) then the engine will shut down.
If you'd like to learn more about processor temperatures, then just click on the link in my signature.
Hope this helps,
Comp