Architecture of the Intel Core i9-9900K Processor
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This report highlights the different advancements and features of the latest multicore processor from Intel, the Intel Core i9-9900K. It is an octacore parallel processor with a base clock rate of 3.6GHz and a boost clock rate of 5.0GHz. The L3 cache memory is 16MB with a thermal design power equivalent to 95W. The report also discusses the architecture design, innovative technology used, and performance of the processor.
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Running head: ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
Name of the student:
Name of the university:
Author note:
ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
Name of the student:
Name of the university:
Author note:
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1ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
Table of Contents
Introduction:....................................................................................................................................2
Discussion:.......................................................................................................................................2
Features of the Intel core i9- 9900k:............................................................................................2
Performance of the Intel core i9- 9900k:.....................................................................................3
Architecture design of the Intel core i9-9900K chip:..................................................................3
Intel comparison with other similar processors:..........................................................................4
Innovative technology used in Intel i9-9900K chip:.......................................................................5
Summary and conclusion:................................................................................................................6
References:......................................................................................................................................8
Table of Contents
Introduction:....................................................................................................................................2
Discussion:.......................................................................................................................................2
Features of the Intel core i9- 9900k:............................................................................................2
Performance of the Intel core i9- 9900k:.....................................................................................3
Architecture design of the Intel core i9-9900K chip:..................................................................3
Intel comparison with other similar processors:..........................................................................4
Innovative technology used in Intel i9-9900K chip:.......................................................................5
Summary and conclusion:................................................................................................................6
References:......................................................................................................................................8
2ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
Introduction:
A computer processor or the central processing unit is the complex electronic circuitry
within the computer that helps in carrying out the specific instructions of a computer application
or program. The processor makes use of basic arithmetic, logic, input/output, controlling as well
as operations that are instruction specific in nature. In parallel processing programs are processed
by allocating them to multiple processors in order to get a task completed in lesser time.
This report will highlight the different advancements and features of a latest multicore
processor form Intel. It is known as the Intel core i9- 9900k. It is an octacore parallel processor
with a base clock rate of 3.6GHz and a boost clock rate of 5.0GHz. The L3 cache memory is
16MB with a thermal design power equivalent to 95W. It is one of the fastest and widely used
processors of the recent times. The features and performance-based study of the processor will
be further studied in the following paragraphs.
Discussion:
Features of the Intel core i9- 9900k:
The Intel i9-9900k processor comes with a list of exciting features. It is among two of the
first of its kind mainstream octacore processors for Intel the other being Intel Core i7-9700K. It
has the highest count of thread in the lineup of coffee lake refresh, which is at 16. This also
translates to the hyper-threading quality of performance that has the ability to outpace the Ryzen
series of 2nd generation processors from AMD.
The AMD Ryzen 7 2700X processor also has eight-cores as well as 16-threads. Its base
clock and boost clock speed rates are of 3.7GHz and 4.3GHz respectively whereas Intel’s i9 chip
starts at a base frequency of 3.6GHz and boosts up to a maximum of 5.0GHz using a single-core.
It may also use a 4.7GHz clock speed through six to eight cores.
The Intel i9-9900K also helps in integrating all these cores and threads together under
clock speeds higher than 400 MHz. It integrates them into chips that has the same 95-watt
package of thermal power as earlier Coffee Lake processors. The Intel i9-9900K also runs a
complete 10-degrees centigrade cooler than the earlier Core i7-8700K or the Intel Core i7-8086K
processors. It does this using its new soldered and integrated heat spreader interface, which is a
Introduction:
A computer processor or the central processing unit is the complex electronic circuitry
within the computer that helps in carrying out the specific instructions of a computer application
or program. The processor makes use of basic arithmetic, logic, input/output, controlling as well
as operations that are instruction specific in nature. In parallel processing programs are processed
by allocating them to multiple processors in order to get a task completed in lesser time.
This report will highlight the different advancements and features of a latest multicore
processor form Intel. It is known as the Intel core i9- 9900k. It is an octacore parallel processor
with a base clock rate of 3.6GHz and a boost clock rate of 5.0GHz. The L3 cache memory is
16MB with a thermal design power equivalent to 95W. It is one of the fastest and widely used
processors of the recent times. The features and performance-based study of the processor will
be further studied in the following paragraphs.
Discussion:
Features of the Intel core i9- 9900k:
The Intel i9-9900k processor comes with a list of exciting features. It is among two of the
first of its kind mainstream octacore processors for Intel the other being Intel Core i7-9700K. It
has the highest count of thread in the lineup of coffee lake refresh, which is at 16. This also
translates to the hyper-threading quality of performance that has the ability to outpace the Ryzen
series of 2nd generation processors from AMD.
The AMD Ryzen 7 2700X processor also has eight-cores as well as 16-threads. Its base
clock and boost clock speed rates are of 3.7GHz and 4.3GHz respectively whereas Intel’s i9 chip
starts at a base frequency of 3.6GHz and boosts up to a maximum of 5.0GHz using a single-core.
It may also use a 4.7GHz clock speed through six to eight cores.
The Intel i9-9900K also helps in integrating all these cores and threads together under
clock speeds higher than 400 MHz. It integrates them into chips that has the same 95-watt
package of thermal power as earlier Coffee Lake processors. The Intel i9-9900K also runs a
complete 10-degrees centigrade cooler than the earlier Core i7-8700K or the Intel Core i7-8086K
processors. It does this using its new soldered and integrated heat spreader interface, which is a
3ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
very exciting feature of this processor. The i9-9900K will also be fully compatible to work with
the preexisting Z370 motherboards.
Performance of the Intel core i9- 9900k:
Intel’s recent Core i9-9900K processor puts on a promising competition and exceeds the
performance of the similar processors for AMD. Intel’s core i9 chips redefines processing power
by maximizing the results obtained for a single core as well as multi core. The gains processor
obtained from the 9900K are above any other its mainstream and helps Intel’s i9-9900K
processors achieve a higher position in the Cinebench scores and a better position of competitive
advantage in the markets. The massive increase in the processing power helps in providing the
fastest video encode times ever seen in Handbrake (Dyakonova et al.). It has been found that the
gaming benchmarks have shown even at the same stock settings as of the earlier Intel Core i7-
8700K, the new i9-9900K delivers the same frame rates while playing games, even though it has
two fewer cores and four lesser threads than the earlier version.
While playing games that are CPU-intensive, for instance, Total War: Warhammer II, the
processor as well as the motherboard did not recognize the Nvidia GeForce GTX 1080 Ti
processor, which later caused in multiple blue-screens issues and computer crashes (Shen, Paul
and Lipasti). The Nvidia RTX 2080 Ti did not even allow games like Shadow of the Tomb
Raider to start and it returned errors like lack of enough resources for running the game at 1080p
and errors related to maximum settings of quality.
Figure 1: Performance of the Total war game for different processors (Saha et
al.).
very exciting feature of this processor. The i9-9900K will also be fully compatible to work with
the preexisting Z370 motherboards.
Performance of the Intel core i9- 9900k:
Intel’s recent Core i9-9900K processor puts on a promising competition and exceeds the
performance of the similar processors for AMD. Intel’s core i9 chips redefines processing power
by maximizing the results obtained for a single core as well as multi core. The gains processor
obtained from the 9900K are above any other its mainstream and helps Intel’s i9-9900K
processors achieve a higher position in the Cinebench scores and a better position of competitive
advantage in the markets. The massive increase in the processing power helps in providing the
fastest video encode times ever seen in Handbrake (Dyakonova et al.). It has been found that the
gaming benchmarks have shown even at the same stock settings as of the earlier Intel Core i7-
8700K, the new i9-9900K delivers the same frame rates while playing games, even though it has
two fewer cores and four lesser threads than the earlier version.
While playing games that are CPU-intensive, for instance, Total War: Warhammer II, the
processor as well as the motherboard did not recognize the Nvidia GeForce GTX 1080 Ti
processor, which later caused in multiple blue-screens issues and computer crashes (Shen, Paul
and Lipasti). The Nvidia RTX 2080 Ti did not even allow games like Shadow of the Tomb
Raider to start and it returned errors like lack of enough resources for running the game at 1080p
and errors related to maximum settings of quality.
Figure 1: Performance of the Total war game for different processors (Saha et
al.).
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4ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
Architecture design of the Intel core i9-9900K chip:
The industry standard architecture that is used in the Intel i9-9900k chip is x86-64 (x86)
with a microarchitecture called Coffee Lake. The platform that is used in designing this chip is
also Coffee Lake and it is a 300 series chipset. It is Octacore and delivers superfast speeds in
playing high computer games. The name of the core that is used is Coffee Lake R that has a core
family 6 and model number 158. It uses a core stepping P0 and a process of 14 nm. The CMOS
technology with a word size of 64 bit is used. The architecture is designed to accommodate 16
threads with a uniprocessor CPU in order to delivers high speed processing (Jarus and Mateusz).
The maximum memory that is supported by this chip is 64 gigabytes.
Figure 2: The packaging structure of i9-9900k chip (Rohr and David).
Intel comparison with other similar processors:
Processor
name
Core
s
Threads Base clock
speed(Ghz)
Boosted
Clock
speed(Ghz)
TDP Intel
smart
cache
Price
Intel Core
i9-9900K
8 16 3.6 5.0 95W 16 MB £600
Intel Core
i7-9700K
8 8 3.6 4.9 95W 12 MB £500
AMD Ryzen
2700X
8 16 3.7 4.3 105W 20 MB £300
NVidia
GeForce
GTX 1080
8 32 3.2 4.48 180W 9 MB £600
Figure 3: comparison among different processors (Bernabe, and Sergio).
Architecture design of the Intel core i9-9900K chip:
The industry standard architecture that is used in the Intel i9-9900k chip is x86-64 (x86)
with a microarchitecture called Coffee Lake. The platform that is used in designing this chip is
also Coffee Lake and it is a 300 series chipset. It is Octacore and delivers superfast speeds in
playing high computer games. The name of the core that is used is Coffee Lake R that has a core
family 6 and model number 158. It uses a core stepping P0 and a process of 14 nm. The CMOS
technology with a word size of 64 bit is used. The architecture is designed to accommodate 16
threads with a uniprocessor CPU in order to delivers high speed processing (Jarus and Mateusz).
The maximum memory that is supported by this chip is 64 gigabytes.
Figure 2: The packaging structure of i9-9900k chip (Rohr and David).
Intel comparison with other similar processors:
Processor
name
Core
s
Threads Base clock
speed(Ghz)
Boosted
Clock
speed(Ghz)
TDP Intel
smart
cache
Price
Intel Core
i9-9900K
8 16 3.6 5.0 95W 16 MB £600
Intel Core
i7-9700K
8 8 3.6 4.9 95W 12 MB £500
AMD Ryzen
2700X
8 16 3.7 4.3 105W 20 MB £300
NVidia
GeForce
GTX 1080
8 32 3.2 4.48 180W 9 MB £600
Figure 3: comparison among different processors (Bernabe, and Sergio).
5ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
Figure 3: Range of frequencies for the i9-9900k chip (Pennycook and Simon).
Innovative technology used in Intel i9-9900K chip:
The Intel i9-9900k octa core processor makes use of different kinds of innovative
technologies such as multithreading, multicore as well as multi-level caches. Combining the
benefits from all these technologies, the chip yield extremely fast processing speeds, which can
be seen especially while playing CPU consuming high end games. In the following paragraphs,
the multi-layered operation of the chip will be explained further in details to help the reader have
a clear understanding of the multi-layered operations in the cache memories within the chip.
The CPU cache is an area of fast memory that is located on the processor. Intel smart cache is the
architecture that is used in the Intel i9-9900K processor that allows the cores to share
information and gain access to the last level cache which is L3 (Johnson and Bradley). It allows
dynamic allocation of the memory for the remaining blocks in order to ensure that the
transmission of the data is smoothly carried out even when the system underperforms due to lack
of voltage or even when the system gets heated up after extremely long hours of operations.
Working in multi layers of cache is one of the most important potential of the i9 9900K
processor. The octacore processor series from Intel have made their past appearances on the
SiSoft Sandra database that has always been a choice of the designers for its reliability. The
guidelines set by the SiSoft leak makes sure that the Intel i9-9900K processor has 16 MB L3
cache memory for all its operations. Some of the important Intel technologies such as the Intel
Optane memory as well as Intel Optane SSD are supported in this chipset. Thunderbolt version
three is also supported in the Intel i9-9900k Chipset.
Figure 3: Range of frequencies for the i9-9900k chip (Pennycook and Simon).
Innovative technology used in Intel i9-9900K chip:
The Intel i9-9900k octa core processor makes use of different kinds of innovative
technologies such as multithreading, multicore as well as multi-level caches. Combining the
benefits from all these technologies, the chip yield extremely fast processing speeds, which can
be seen especially while playing CPU consuming high end games. In the following paragraphs,
the multi-layered operation of the chip will be explained further in details to help the reader have
a clear understanding of the multi-layered operations in the cache memories within the chip.
The CPU cache is an area of fast memory that is located on the processor. Intel smart cache is the
architecture that is used in the Intel i9-9900K processor that allows the cores to share
information and gain access to the last level cache which is L3 (Johnson and Bradley). It allows
dynamic allocation of the memory for the remaining blocks in order to ensure that the
transmission of the data is smoothly carried out even when the system underperforms due to lack
of voltage or even when the system gets heated up after extremely long hours of operations.
Working in multi layers of cache is one of the most important potential of the i9 9900K
processor. The octacore processor series from Intel have made their past appearances on the
SiSoft Sandra database that has always been a choice of the designers for its reliability. The
guidelines set by the SiSoft leak makes sure that the Intel i9-9900K processor has 16 MB L3
cache memory for all its operations. Some of the important Intel technologies such as the Intel
Optane memory as well as Intel Optane SSD are supported in this chipset. Thunderbolt version
three is also supported in the Intel i9-9900k Chipset.
6ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
Figure 4: The cache working of the i9-9900k chipset (Marwedel, Peter and Goossens).
The Intel 19-9900K processor operates in three major layers. The L3 cache memory is 16
megabytes. The first layer or L1 is divided into two sub layers each having sub memory of 256
kilobytes. Each of these smaller blocks of the first memory layer are 8 way set associative in
nature which address to 8 different pins in the chip to transmit data. The second layer of the chip,
which is L2, has a memory of 2 Megabytes and it is four way set associative in nature. This
division of the memory blocks of the Intel i9-9900K processor further enables the tasks to be
subdivided into finer blocks within the chip. This allows complex tasks such as rapid changes of
frame rates on the screen while playing CPU consuming games, much more efficient and faster
(Kirk, David and Wen-Mei). The lags that are often experienced in the games are counter
attacked by the operations of the L2 cache memory within a very short span of time.
The last layer that is the L3 layer has a cache memory of 16 MB that has the capacity to
store the buffer image of the data that is used while running high-end CPU consuming
applications such as games. This is one of the most interesting part of the multi layered operation
of the Intel i9-9900K processor since it is 16 way set associative in nature and can greatly speed
up the systems speed even at times when the CPU is heated due to long hours of playing of
games. This feature has ensured that the temperature balancing feature of the Intel chipsets of the
earlier versions have further been innovated and incorporated in the i9-9900k chipset (Marwedel,
Peter and Goossens). The layer 3 also ensures that the two 8 Mb blocks are used to store back up
data in the cache memory even when the processor shuts down due to power failure or any other
reasons.
Figure 4: The cache working of the i9-9900k chipset (Marwedel, Peter and Goossens).
The Intel 19-9900K processor operates in three major layers. The L3 cache memory is 16
megabytes. The first layer or L1 is divided into two sub layers each having sub memory of 256
kilobytes. Each of these smaller blocks of the first memory layer are 8 way set associative in
nature which address to 8 different pins in the chip to transmit data. The second layer of the chip,
which is L2, has a memory of 2 Megabytes and it is four way set associative in nature. This
division of the memory blocks of the Intel i9-9900K processor further enables the tasks to be
subdivided into finer blocks within the chip. This allows complex tasks such as rapid changes of
frame rates on the screen while playing CPU consuming games, much more efficient and faster
(Kirk, David and Wen-Mei). The lags that are often experienced in the games are counter
attacked by the operations of the L2 cache memory within a very short span of time.
The last layer that is the L3 layer has a cache memory of 16 MB that has the capacity to
store the buffer image of the data that is used while running high-end CPU consuming
applications such as games. This is one of the most interesting part of the multi layered operation
of the Intel i9-9900K processor since it is 16 way set associative in nature and can greatly speed
up the systems speed even at times when the CPU is heated due to long hours of playing of
games. This feature has ensured that the temperature balancing feature of the Intel chipsets of the
earlier versions have further been innovated and incorporated in the i9-9900k chipset (Marwedel,
Peter and Goossens). The layer 3 also ensures that the two 8 Mb blocks are used to store back up
data in the cache memory even when the processor shuts down due to power failure or any other
reasons.
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7ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
Summary and conclusion:
Therefore, it can be summarized from the above repot that in this ever evolving and
changing technological trends of the markets, there are different kinds of computer processors
that are being invented. There are different kinds of processors that are available in the open
markets and they are designed to cater to the specific technological needs of the end users. There
are different kinds of applications of the high-end processors such as NVidia, Intel as well as
AMD processors that are releasing their latest range of high end gaming processors to ensure the
best quality service for the end users. Some of the most popular processors that are presently the
main market players this age of technology are the AMD Ryzen 2700X, Intel Core i7-9700K as
well as the NVidia GeForce GTX 1080. They are high yielding processors that deliver high
speed of operation for the computers and they have different kinds of hardware as well as
software requirements. They are available I the market in different prices. They are also available
for sale online in the different ecommerce websites. Users which always refer to stay updated
with the latest processors and graphics cards and are always updated with the recent trends of
technology in the market also often sell their older apparatus and purchase the latest ones. The
Intel i9-9900k processor also has the Intel inbuilt technologies such as Intel optane. It also makes
use of the techniques of soldering instead of its traditional past solution that it used in the earlier
processors for connecting the different chips and pins of the processor.
It can be concluded that considering all the different kinds of aspects of the processors
that are seen in the market presently the market leader is the Intel i9-9900K considering its
different aspects and technological benefits. Even though it has only one disadvantage of its
extremely high cost for the common person to afford, yet its advantages are more to compensate
for its single disadvantage in the market. Even though the market price of the i9-9900k Intel
processor is quite high and competitive in the market it is worthy of its cost. It remarkable
improved the overall speed and performance of the system and ensures that high CPU utilizing
programs and applications run smoothly on the computers. Through the i9-9900k processor, Intel
has been able to compete with itself by providing a processor that is better than its own
processors of the earlier series. The i9-9900s series of processor has shown remarkable
improvement from its earlier Intel Core i7-9700K version thereby allowing the users to have the
flexibility to choose from a wide range of products depending on their use of the systems.
Summary and conclusion:
Therefore, it can be summarized from the above repot that in this ever evolving and
changing technological trends of the markets, there are different kinds of computer processors
that are being invented. There are different kinds of processors that are available in the open
markets and they are designed to cater to the specific technological needs of the end users. There
are different kinds of applications of the high-end processors such as NVidia, Intel as well as
AMD processors that are releasing their latest range of high end gaming processors to ensure the
best quality service for the end users. Some of the most popular processors that are presently the
main market players this age of technology are the AMD Ryzen 2700X, Intel Core i7-9700K as
well as the NVidia GeForce GTX 1080. They are high yielding processors that deliver high
speed of operation for the computers and they have different kinds of hardware as well as
software requirements. They are available I the market in different prices. They are also available
for sale online in the different ecommerce websites. Users which always refer to stay updated
with the latest processors and graphics cards and are always updated with the recent trends of
technology in the market also often sell their older apparatus and purchase the latest ones. The
Intel i9-9900k processor also has the Intel inbuilt technologies such as Intel optane. It also makes
use of the techniques of soldering instead of its traditional past solution that it used in the earlier
processors for connecting the different chips and pins of the processor.
It can be concluded that considering all the different kinds of aspects of the processors
that are seen in the market presently the market leader is the Intel i9-9900K considering its
different aspects and technological benefits. Even though it has only one disadvantage of its
extremely high cost for the common person to afford, yet its advantages are more to compensate
for its single disadvantage in the market. Even though the market price of the i9-9900k Intel
processor is quite high and competitive in the market it is worthy of its cost. It remarkable
improved the overall speed and performance of the system and ensures that high CPU utilizing
programs and applications run smoothly on the computers. Through the i9-9900k processor, Intel
has been able to compete with itself by providing a processor that is better than its own
processors of the earlier series. The i9-9900s series of processor has shown remarkable
improvement from its earlier Intel Core i7-9700K version thereby allowing the users to have the
flexibility to choose from a wide range of products depending on their use of the systems.
8ARCHITECHTURE OF THE INTEL CORE I9-9900K PROCESSOR
References:
Bernabe, Sergio, et al. "Hyperspectral unmixing on GPUs and multi-core processors: A
comparison." IEEE Journal of Selected Topics in Applied Earth Observations and Remote
Sensing 6.3 (2013): 1386-1398.
Dyakonova, Tatyana, Alexander Khoperskov, and Sergey Khrapov. "Numerical model of
shallow water: the use of NVIDIA CUDA graphics processors." Russian Supercomputing Days.
Springer, Cham, 2016.
Jarus, Mateusz, et al. "Performance evaluation and energy efficiency of high-density HPC
platforms based on Intel, AMD and ARM processors." European Conference on Energy
Efficiency in Large Scale Distributed Systems. Springer, Berlin, Heidelberg, 2013.
Johnson, Bradley W., et al. "Wagering game, gaming machine, networked gaming system and
method with a base game and a simultaneous bonus currency game." U.S. Patent No. 9,064,377.
23 Jun. 2015.
Kirk, David B., and W. Hwu Wen-Mei. Programming massively parallel processors: a hands-on
approach. Morgan kaufmann, 2016.
Marwedel, Peter, and Gert Goossens, eds. Code generation for embedded processors. Vol. 317.
Springer Science & Business Media, 2013.
Pennycook, Simon J., et al. "Exploring simd for molecular dynamics, using intel® xeon®
processors and intel® xeon phi coprocessors." Parallel & Distributed Processing (IPDPS), 2013
IEEE 27th International Symposium on. IEEE, 2013.
Rohr, David, et al. "An energy-efficient multi-GPU supercomputer." High Performance
Computing and Communications, 2014 IEEE 6th Intl Symp on Cyberspace Safety and Security,
2014 IEEE 11th Intl Conf on Embedded Software and Syst (HPCC, CSS, ICESS), 2014 IEEE
Intl Conf on. IEEE, 2014.
Saha, Anish Kumar, Koj Sambyo, and C. T. Bhunia. "Integration of DVFS and multi CPUs
scaling in a multi-processor." Electronic Design, Computer Networks & Automated Verification
(EDCAV), 2015 International Conference on. IEEE, 2015.
Shen, John Paul, and Mikko H. Lipasti. Modern processor design: fundamentals of superscalar
processors. Waveland Press, 2013.
References:
Bernabe, Sergio, et al. "Hyperspectral unmixing on GPUs and multi-core processors: A
comparison." IEEE Journal of Selected Topics in Applied Earth Observations and Remote
Sensing 6.3 (2013): 1386-1398.
Dyakonova, Tatyana, Alexander Khoperskov, and Sergey Khrapov. "Numerical model of
shallow water: the use of NVIDIA CUDA graphics processors." Russian Supercomputing Days.
Springer, Cham, 2016.
Jarus, Mateusz, et al. "Performance evaluation and energy efficiency of high-density HPC
platforms based on Intel, AMD and ARM processors." European Conference on Energy
Efficiency in Large Scale Distributed Systems. Springer, Berlin, Heidelberg, 2013.
Johnson, Bradley W., et al. "Wagering game, gaming machine, networked gaming system and
method with a base game and a simultaneous bonus currency game." U.S. Patent No. 9,064,377.
23 Jun. 2015.
Kirk, David B., and W. Hwu Wen-Mei. Programming massively parallel processors: a hands-on
approach. Morgan kaufmann, 2016.
Marwedel, Peter, and Gert Goossens, eds. Code generation for embedded processors. Vol. 317.
Springer Science & Business Media, 2013.
Pennycook, Simon J., et al. "Exploring simd for molecular dynamics, using intel® xeon®
processors and intel® xeon phi coprocessors." Parallel & Distributed Processing (IPDPS), 2013
IEEE 27th International Symposium on. IEEE, 2013.
Rohr, David, et al. "An energy-efficient multi-GPU supercomputer." High Performance
Computing and Communications, 2014 IEEE 6th Intl Symp on Cyberspace Safety and Security,
2014 IEEE 11th Intl Conf on Embedded Software and Syst (HPCC, CSS, ICESS), 2014 IEEE
Intl Conf on. IEEE, 2014.
Saha, Anish Kumar, Koj Sambyo, and C. T. Bhunia. "Integration of DVFS and multi CPUs
scaling in a multi-processor." Electronic Design, Computer Networks & Automated Verification
(EDCAV), 2015 International Conference on. IEEE, 2015.
Shen, John Paul, and Mikko H. Lipasti. Modern processor design: fundamentals of superscalar
processors. Waveland Press, 2013.
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