View allAll Photos Tagged Intel
Nehalem is Intel's dynamically scalable and innovative new processor microarchitecture -- Nehalem will provide dramatic performance and energy improvements to Intel's current industry-leading microprocessors. Nehalem is scalable with future versions having anywhere from 2 to 8 cores, with Simultaneous Multi-threading, resulting in 4 to 16 thread capability. Nehalem will deliver 4 times the memory bandwidth compared to today's highest-performance Intel Xeon processor-based systems. With up to 8 MB level-3 cache, 731 million transistors, Quickpath interconnects (up to 25.6GB per second), integrated memory controller and optional integrated graphics, Nehalem will eventually scale from notebooks to high-performance servers. Other features include support for DDR3-800, 1066, and 1333 memory, SSE4.2 instructions, 32KB instruction cache, 32KB Data Cache, 256K L2 data and instruction low-latency cache per core and new 2-level TLB (Translation Lookaside Buffer) hierarchy. These technical improvements will result in performance improvements as well as flexibility for a wide range of eventual products based on the Nehalem architecture.
Located at Intel headquarters in Santa Clara, CA, the Intel Museum was redesigned in June 2011 with new interactive exhibits and activities great for kids and fans of technology innovation. The museum attracts over 120,000 people each year (as of 2011). More details here intel.ly/mWwGpn.
die allmählich entstehenden USB-Typ-C-Stecker deckt bereits einen schnelleren Datentransfer und Laden, und wir haben bereits das erste Smartphone und Kopfhörer manufactuers zu verwenden versuchen, den neuen Connector als Audio-Port zu sehen. Android hat sich seit Version 5.0 USB DACs...
protzig-tech.com/intel-einen-usb-typ-c-audio-spezifikatio...
Last summer, it was a great honor to go salmon fishing with Gordon Moore, co-founder of Intel, and seer of exponential trends in technology.
I have been thinking and blogging about the next phase of Moore’s Law, the breakthroughs in molecular electronics that will continue what has been a 100 years of exponential growth in computational capability.
Looking to the future again, Moore recently made a sizable donation to Caltech to
“establish the Nanoscale Systems Initiative (NSI). The grant will support one of the scientific and technological community's promising research avenues--the creation of extremely tiny devices to augment and in some cases displace the state-of-the-art electronic systems of today.” (press release)
Photo of the catch.
A friend gave me this chip, I was surprised to see that it appears to be identical to previous Xeon 5150.
I managed to not chip any corners while scraping this chip which is a first for me doing the Xeons.
This is a dual core CPU, with 4MB of L2 cache and a base speed of 2.4GHz (0.26GHz slower than 5150). The bus speed is 1066MHz which is 267MHz slower than the 5150.
This refused to stitch in Autopano Giga, so ICE was used. This has the consequence of warping near the edges when using a large numbers of images. I may revisit this chip when I get a better camera setup.
Camera: Pixel 2XL
Number of Images: 144
Overlap: 65%
Microscope Objective: 4X Plan
Microscope Eyepiece: 10X
Camera Zoom: 2.6X (Prevents distortion)
Grid Used: 3x3 (Panning Aid)
Capture Motion: Serpentine
Stitching Software: Microsoft ICE
Other Software: GIMP was used to compress PNG of size 340.7MB to JPG of size 196.1MB
Image Type: JPG
Image Quality: 100
There are additional display panels above the keyboard. You can slide windows and widgets onto these panels from the main screen.
This is a macro photography of the innards from a Siemens Nixdorf Science Pro D6 desktop computer case, at least 10 years old. You see an intel motherboard with a Slot 1 connector for the CPU. Well, and you see that the computer is equipped with about 256MB SDRAMs. All that hardware was electronic waste at my school, so I've saved that from being trashed.
But the point is: This is an ugly Intel proprietary implementation of the Slot 1 which doesn't allow co existence with the competitior AMD and their "Slot 1" replica "Slot A", because these capacitors don't allow CPUs like my Athlon k7 being mounted while Intel CPUs can, as you can see at this comparison.
I had this laying around and decided to shoot a macro photo.
This is a 256kbit intel EPROM. This kind of EPROMS used to be written via UV light, then a sticker was placed in the recording windows to avoid erasing them.
You can see the manufacturing year, model and brand written on the chip.
More info:
Des images de la conférence Intel autour des objets connectés avec
- Montre Tag Heuer,
- Lunettes Recon Jet,
- Masque Oakley Snow,
- bracelets Fossil,
- robe connectée Ezratuba
avec Module Intel Curice et Module Intel Edison
13 Avril 2016
Der Adaptive All-In-One PC verbindet die Vorteile eines Tablets mit den Vorzügen der PC-Architektur.
This reply is from Intel's CEO Paul S. Otellini after I sent him an email saying goodbye and good luck as I set out to work on my own business. It may not seem like a big deal, but you have to understand that this is the CEO of a 70,000+ workforce spread out across the globe, so to even receive a response within 24 hours was pretty amazing in my book. You can see my thoughts on Intel by visiting my blog.
:: SPEC ::
CPU: INTEL CORE I9-9900K
M/B: AORUS Z390 PRO WIFI
GPU: AORUS GEFORCE RTX2070 SUPER 8G - 8GB GDDR6
RAM: CORSAIR VENGEANCE PRO RGB 16GB (8X2) 3200
RAM KIT: CORSAIR VENGEANCE PRO RGB LIGHT KIT
SSD: SAMSUNG 970 EVO PLUS PCIE/NVME M.2 2280
SSD: DEVA'S E240E 240GB 3D NAND
HDD: SEAGATE BARRACUDA 1TB 7200RPM SATA III
COOLING: EKWB AIO 240 D-RGB
PSU: CORSAIR RM850i
CASE: CORSAIR CARBIDE 275R WHITE
FAN CASE: ID COOLING XF-12025 SW
LCD TFT CUSTOM 3.5"
CABLE MOD BLACK/WHITE