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→Dynamic Shared Memory (not implemented)
==== Baseline ====
The following profiles were made under the following compiler and computer settings:
<pre>nvcc main.cpp timer.cpp sim\simbody.cu sim\simulation.cu -DWIN32 -O3</pre>
* i5 2500K @ 4.5Ghz
* Nvidia GTX 560Ti
* Raw computations, no graphics drawn to the screen for unbiased results.
* Random position, velocity and mass for each body.
* Brute force algorithm for calculating the forces (O(n^2)).
==== Initial Profiling ====
Initially, the serial version of this program took about 13 minutes to calculate 512 samples in a 5000-body simulation. Even with the use of Steaming SIMD Extensions, the program took about 7 minutes to do the same test.
==== Parallelization ==== ===== Basic Parallelization =====
* Turned old serial code where the program bottlenecked to into two separate kernels
===== Optimized Parallelization =====
* Changed the launch configuration for the kernels so there were no wasted threads (based on devices compute capabilities)
===== Profile #1 =====
[[File:cosmosis_assn3_p1_1.png|border]]
[[ImageFile:cosmosis_assn3_p1_2.png|border]]
To be able to see the difference between the pre and post optimized code, this graph does not include the serial cpu timings.
Our second profile again consists of running simulations for 240 seconds to determine how many samples we achieve per second, and how many total samples we end up with after four minutes.
[[ImageFile:cosmosis_assn3_p2_1.png|border]]
Optimized GPU after four minutes.
[[ImageFile:cosmosis_assn3_p2_2.png|border]]
Naive GPU Samples after four minutes.
Comparing our results from the previous GPU implementation, we managed to achieve a total of 188072 samples compared to 88707. Roughly a 112.015 % increase in the number of samples completed in four minutes. Compared with our CPU code, the optimized GPU code is 1421.741% faster.
==== Test Suite ====
[[File:cosmosis_assn3_test.png|border]]
During the initial stages of our optimizations, we noticed that incorrect data started showing up after some changes. In order to ensure that even after our optimizations the data was still correct we had to develop a comprehensive test suite. The test suite goes through multiple tests and compares host values (assumed 100% correct) to the device values. These values are compared using their final position after a number of samples. The test suite allows for 1.0 difference in values to compensate for floating-point errors.
We initially intended on using the fast-math library provided by CUDA. At first our results were marginally faster than our previous code. Though after some optimizations we discovered that our code actually performed better than the fast-math library. With fast-math, it took 0.451889 seconds to process 1000 bodies for 512 samples, conversely without fast-math we got 0.409581 seconds, which is a considerable improvement.
==== Optimized Code ====
<div style='color:#000020;background:#f6f8ff;'>
<span style='color:#200080; font-weight:bold; '>void</span> __global__ SimCalc<span style='color:#308080; '>(</span>BodyArray a<span style='color:#308080; '>)</span>
<span style='color:#406080; '>{</span>
int_fast32_t idx <span style='color:#308080; '>=</span> blockIdx<span style='color:#308080; '>.</span>x <span style='color:#308080; '>*</span> blockDim<span style='color:#308080; '>.</span>x <span style='color:#308080; '>+</span> threadIdx<span style='color:#308080; '>.</span>x<span style='color:#406080; '>;</span>
<span style='color:#200080; font-weight:bold; '>if</span> <span style='color:#308080; '>(</span>idx <span style='color:#308080; '><</span> a<span style='color:#308080; '>.</span>size<span style='color:#308080; '>)</span> <span style='color:#406080; '>{</span>
<span style='color:#200080; font-weight:bold; '>const</span> _T G <span style='color:#308080; '>=</span> <span style='color:#008000; '>6.67384</span><span style='color:#006600; '>f</span> <span style='color:#308080; '>*</span> <span style='color:#003060; '>pow</span><span style='color:#308080; '>(</span><span style='color:#008000; '>10.0</span><span style='color:#006600; '>f</span><span style='color:#308080; '>,</span> <span style='color:#308080; '>-</span><span style='color:#008000; '>11.0</span><span style='color:#006600; '>f</span><span style='color:#308080; '>)</span><span style='color:#406080; '>;</span>
<span style='color:#595979; '>//precompute positions at index</span>
<span style='color:#200080; font-weight:bold; '>const</span> _T px <span style='color:#308080; '>=</span> a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Position<span style='color:#308080; '>.</span>x<span style='color:#406080; '>;</span>
<span style='color:#200080; font-weight:bold; '>const</span> _T py <span style='color:#308080; '>=</span> a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Position<span style='color:#308080; '>.</span>y<span style='color:#406080; '>;</span>
<span style='color:#595979; '>//mass at the index</span>
<span style='color:#200080; font-weight:bold; '>const</span> _T M_idx <span style='color:#308080; '>=</span> G<span style='color:#308080; '>*</span>a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Mass<span style='color:#406080; '>;</span>
a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Force <span style='color:#308080; '>=</span> vec2_t<span style='color:#308080; '>(</span><span style='color:#308080; '>)</span><span style='color:#406080; '>;</span>
<span style='color:#200080; font-weight:bold; '>for</span> <span style='color:#308080; '>(</span>int_fast32_t j<span style='color:#308080; '>(</span><span style='color:#008c00; '>0</span><span style='color:#308080; '>)</span><span style='color:#406080; '>;</span> j <span style='color:#308080; '>!</span><span style='color:#308080; '>=</span> a<span style='color:#308080; '>.</span>size<span style='color:#406080; '>;</span> <span style='color:#308080; '>+</span><span style='color:#308080; '>+</span>j<span style='color:#308080; '>)</span> <span style='color:#406080; '>{</span>
<span style='color:#200080; font-weight:bold; '>if</span> <span style='color:#308080; '>(</span>idx <span style='color:#308080; '>!</span><span style='color:#308080; '>=</span> j<span style='color:#308080; '>)</span> <span style='color:#406080; '>{</span>
_T dx <span style='color:#308080; '>=</span> a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>j<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Position<span style='color:#308080; '>.</span>x <span style='color:#308080; '>-</span> px<span style='color:#406080; '>;</span>
_T dy <span style='color:#308080; '>=</span> a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>j<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Position<span style='color:#308080; '>.</span>y <span style='color:#308080; '>-</span> py<span style='color:#406080; '>;</span>
_T r <span style='color:#308080; '>=</span> <span style='color:#003060; '>sqrt</span><span style='color:#308080; '>(</span>dx<span style='color:#308080; '>*</span>dx <span style='color:#308080; '>+</span> dy<span style='color:#308080; '>*</span>dy<span style='color:#308080; '>)</span><span style='color:#406080; '>;</span>
_T F <span style='color:#308080; '>=</span> <span style='color:#308080; '>(</span>M_idx<span style='color:#308080; '>*</span>a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>j<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Mass<span style='color:#308080; '>)</span><span style='color:#308080; '>/</span><span style='color:#308080; '>(</span>r<span style='color:#308080; '>*</span>r<span style='color:#308080; '>)</span><span style='color:#406080; '>;</span>
a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Force<span style='color:#308080; '>.</span>x <span style='color:#308080; '>+</span><span style='color:#308080; '>=</span> F <span style='color:#308080; '>*</span> <span style='color:#308080; '>(</span>dx <span style='color:#308080; '>/</span> r<span style='color:#308080; '>)</span><span style='color:#406080; '>;</span>
a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Force<span style='color:#308080; '>.</span>y <span style='color:#308080; '>+</span><span style='color:#308080; '>=</span> F <span style='color:#308080; '>*</span> <span style='color:#308080; '>(</span>dy <span style='color:#308080; '>/</span> r<span style='color:#308080; '>)</span><span style='color:#406080; '>;</span>
<span style='color:#406080; '>}</span>
<span style='color:#406080; '>}</span>
<span style='color:#406080; '>}</span>
<span style='color:#200080; font-weight:bold; '>void</span> __global__ SimTick<span style='color:#308080; '>(</span>BodyArray a<span style='color:#308080; '>,</span> _T dt<span style='color:#308080; '>)</span>
<span style='color:#406080; '>{</span>
<span style='color:#200080; font-weight:bold; '>int</span> idx <span style='color:#308080; '>=</span> blockIdx<span style='color:#308080; '>.</span>x <span style='color:#308080; '>*</span> blockDim<span style='color:#308080; '>.</span>x <span style='color:#308080; '>+</span> threadIdx<span style='color:#308080; '>.</span>x<span style='color:#406080; '>;</span>
<span style='color:#200080; font-weight:bold; '>if</span> <span style='color:#308080; '>(</span>idx <span style='color:#308080; '><</span> a<span style='color:#308080; '>.</span>size<span style='color:#308080; '>)</span>
<span style='color:#406080; '>{</span>
_T mass <span style='color:#308080; '>=</span> a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Mass<span style='color:#406080; '>;</span>
a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Velocity<span style='color:#308080; '>.</span>x <span style='color:#308080; '>+</span><span style='color:#308080; '>=</span> dt <span style='color:#308080; '>*</span> <span style='color:#308080; '>(</span>a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Force<span style='color:#308080; '>.</span>x <span style='color:#308080; '>/</span> mass<span style='color:#308080; '>)</span><span style='color:#406080; '>;</span>
a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Velocity<span style='color:#308080; '>.</span>y <span style='color:#308080; '>+</span><span style='color:#308080; '>=</span> dt <span style='color:#308080; '>*</span> <span style='color:#308080; '>(</span>a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Force<span style='color:#308080; '>.</span>y <span style='color:#308080; '>/</span> mass<span style='color:#308080; '>)</span><span style='color:#406080; '>;</span>
a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Position<span style='color:#308080; '>.</span>x <span style='color:#308080; '>+</span><span style='color:#308080; '>=</span> dt <span style='color:#308080; '>*</span> a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Velocity<span style='color:#308080; '>.</span>x<span style='color:#406080; '>;</span>
a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Position<span style='color:#308080; '>.</span>y <span style='color:#308080; '>+</span><span style='color:#308080; '>=</span> dt <span style='color:#308080; '>*</span> a<span style='color:#308080; '>.</span>array<span style='color:#308080; '>[</span>idx<span style='color:#308080; '>]</span><span style='color:#308080; '>.</span>Velocity<span style='color:#308080; '>.</span>y<span style='color:#406080; '>;</span>
<span style='color:#406080; '>}</span>
<span style='color:#406080; '>}</span>
</div>
==== Launch Control ====
We used the following calculations to determine the the number of threads and blocks to launch with:
<div style='color:#000020;background:#f6f8ff;'>
numThreads_ <span style='color:#308080; '>=</span> prop<span style='color:#308080; '>.</span>maxThreadsPerMultiProcessor <span style='color:#308080; '>/</span> maxBlocks<span style='color:#406080; '>;</span>
numBlocks_ <span style='color:#308080; '>=</span> <span style='color:#308080; '>(</span>bodies_<span style='color:#308080; '>.</span>size<span style='color:#308080; '>(</span><span style='color:#308080; '>)</span> <span style='color:#308080; '>+</span> numThreads_ <span style='color:#308080; '>-</span> <span style='color:#008c00; '>1</span><span style='color:#308080; '>)</span> <span style='color:#308080; '>/</span> numThreads_<span style='color:#406080; '>;</span>
numThreads_ <span style='color:#308080; '>=</span> <span style='color:#308080; '>(</span>numThreads_ <span style='color:#308080; '>+</span> <span style='color:#008c00; '>1</span><span style='color:#308080; '>)</span> <span style='color:#308080; '>&</span> <span style='color:#308080; '>~</span><span style='color:#008c00; '>1</span><span style='color:#406080; '>;</span>
</div>
==== Dynamic Shared Memory (not implemented) ====
This is the roundabout way we thought of, of how to send in chunks to the kernel so that the kernel can handle shared memory size of no greater than the max shared memory size of the GPU:
<div style='color:#000000;background:#ffffff;'>
CHUNKSIZE <span style='color:#808030; '>=</span> <span style='color:#008c00; '>512</span><span style='color:#800080; '>;</span>
shared_ <span style='color:#808030; '>=</span> CHUNKSIZE <span style='color:#808030; '>*</span> <span style='color:#800000; font-weight:bold; '>sizeof</span><span style='color:#808030; '>(</span>SimBody<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>while</span> <span style='color:#808030; '>(</span>chunks <span style='color:#808030; '>></span> <span style='color:#008c00; '>0</span><span style='color:#808030; '>)</span>
<span style='color:#800080; '>{</span>
BodyArray ba <span style='color:#808030; '>=</span> <span style='color:#800080; '>{</span> <span style='color:#808030; '>&</span>arr<span style='color:#808030; '>.</span><span style='color:#603000; '>array</span><span style='color:#808030; '>[</span>index<span style='color:#808030; '>]</span><span style='color:#808030; '>,</span> CHUNKSIZE <span style='color:#800080; '>}</span><span style='color:#800080; '>;</span>
SimCalc <span style='color:#808030; '><</span><span style='color:#808030; '><</span><span style='color:#808030; '><</span> numBlocks_<span style='color:#808030; '>,</span> numThreads_<span style='color:#808030; '>,</span> shared_ <span style='color:#808030; '>></span><span style='color:#808030; '>></span><span style='color:#808030; '>></span><span style='color:#808030; '>(</span>ba<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
cudaThreadSynchronize<span style='color:#808030; '>(</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
SimTick <span style='color:#808030; '><</span><span style='color:#808030; '><</span><span style='color:#808030; '><</span> numBlocks_<span style='color:#808030; '>,</span> numThreads_<span style='color:#808030; '>,</span> shared_ <span style='color:#808030; '>></span><span style='color:#808030; '>></span><span style='color:#808030; '>></span><span style='color:#808030; '>(</span>ba<span style='color:#808030; '>,</span> timeStep<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
cudaThreadSynchronize<span style='color:#808030; '>(</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
index <span style='color:#808030; '>+</span><span style='color:#808030; '>=</span> CHUNKSIZE<span style='color:#800080; '>;</span>
<span style='color:#808030; '>-</span><span style='color:#808030; '>-</span>chunks<span style='color:#800080; '>;</span>
<span style='color:#800080; '>}</span>
chunks <span style='color:#808030; '>=</span> arr<span style='color:#808030; '>.</span>size <span style='color:#808030; '>/</span> CHUNKSIZE <span style='color:#808030; '>+</span> <span style='color:#008c00; '>1</span><span style='color:#800080; '>;</span>
index <span style='color:#808030; '>=</span> <span style='color:#008c00; '>0</span><span style='color:#800080; '>;</span>
</div>
It handles calculations in chunks so that the kernel can do calculations on body sizes of more than 1175 for devices with compute capabilities of 3.x.
Here is what the shared memory kernels would look like (not implemented because not correct):
<div style='color:#000000;background:#ffffff;'>
<span style='color:#800000; font-weight:bold; '>void</span> __global__ SimCalc<span style='color:#808030; '>(</span>BodyArray a<span style='color:#808030; '>)</span>
<span style='color:#800080; '>{</span>
int_fast32_t idx <span style='color:#808030; '>=</span> blockIdx<span style='color:#808030; '>.</span>x <span style='color:#808030; '>*</span> blockDim<span style='color:#808030; '>.</span>x <span style='color:#808030; '>+</span> threadIdx<span style='color:#808030; '>.</span>x<span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>int</span> tid <span style='color:#808030; '>=</span> threadIdx<span style='color:#808030; '>.</span>x<span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>extern</span> __shared__ SimBody sa<span style='color:#808030; '>[</span><span style='color:#808030; '>]</span><span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>if</span> <span style='color:#808030; '>(</span>idx <span style='color:#808030; '>></span><span style='color:#808030; '>=</span> a<span style='color:#808030; '>.</span>size<span style='color:#808030; '>)</span>
<span style='color:#800000; font-weight:bold; '>return</span><span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span> <span style='color:#808030; '>=</span> a<span style='color:#808030; '>.</span><span style='color:#603000; '>array</span><span style='color:#808030; '>[</span>idx<span style='color:#808030; '>]</span><span style='color:#800080; '>;</span>
__syncthreads<span style='color:#808030; '>(</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>const</span> _T G <span style='color:#808030; '>=</span> <span style='color:#008000; '>6.67384</span><span style='color:#006600; '>f</span> <span style='color:#808030; '>*</span> <span style='color:#603000; '>pow</span><span style='color:#808030; '>(</span><span style='color:#008000; '>10.0</span><span style='color:#006600; '>f</span><span style='color:#808030; '>,</span> <span style='color:#808030; '>-</span><span style='color:#008000; '>11.0</span><span style='color:#006600; '>f</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
<span style='color:#696969; '>//precompute positions at index</span>
<span style='color:#800000; font-weight:bold; '>const</span> _T px <span style='color:#808030; '>=</span> sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Position<span style='color:#808030; '>.</span>x<span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>const</span> _T py <span style='color:#808030; '>=</span> sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Position<span style='color:#808030; '>.</span>y<span style='color:#800080; '>;</span>
<span style='color:#696969; '>//mass at the index</span>
<span style='color:#800000; font-weight:bold; '>const</span> _T M_idx <span style='color:#808030; '>=</span> G<span style='color:#808030; '>*</span>sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Mass<span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Force <span style='color:#808030; '>=</span> vec2_t<span style='color:#808030; '>(</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>for</span> <span style='color:#808030; '>(</span>int_fast32_t j<span style='color:#808030; '>(</span><span style='color:#008c00; '>0</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span> j <span style='color:#808030; '>!</span><span style='color:#808030; '>=</span> a<span style='color:#808030; '>.</span>size<span style='color:#800080; '>;</span> <span style='color:#808030; '>+</span><span style='color:#808030; '>+</span>j<span style='color:#808030; '>)</span> <span style='color:#800080; '>{</span>
<span style='color:#800000; font-weight:bold; '>if</span> <span style='color:#808030; '>(</span>idx <span style='color:#808030; '>!</span><span style='color:#808030; '>=</span> j<span style='color:#808030; '>)</span> <span style='color:#800080; '>{</span>
_T dx <span style='color:#808030; '>=</span> a<span style='color:#808030; '>.</span><span style='color:#603000; '>array</span><span style='color:#808030; '>[</span>j<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Position<span style='color:#808030; '>.</span>x <span style='color:#808030; '>-</span> px<span style='color:#800080; '>;</span>
_T dy <span style='color:#808030; '>=</span> a<span style='color:#808030; '>.</span><span style='color:#603000; '>array</span><span style='color:#808030; '>[</span>j<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Position<span style='color:#808030; '>.</span>y <span style='color:#808030; '>-</span> py<span style='color:#800080; '>;</span>
_T r <span style='color:#808030; '>=</span> <span style='color:#603000; '>sqrt</span><span style='color:#808030; '>(</span>dx<span style='color:#808030; '>*</span>dx <span style='color:#808030; '>+</span> dy<span style='color:#808030; '>*</span>dy<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
_T F <span style='color:#808030; '>=</span> <span style='color:#808030; '>(</span>M_idx<span style='color:#808030; '>*</span>a<span style='color:#808030; '>.</span><span style='color:#603000; '>array</span><span style='color:#808030; '>[</span>j<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Mass<span style='color:#808030; '>)</span><span style='color:#808030; '>/</span><span style='color:#808030; '>(</span>r<span style='color:#808030; '>*</span>r<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Force<span style='color:#808030; '>.</span>x <span style='color:#808030; '>+</span><span style='color:#808030; '>=</span> F <span style='color:#808030; '>*</span> <span style='color:#808030; '>(</span>dx <span style='color:#808030; '>/</span> r<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Force<span style='color:#808030; '>.</span>y <span style='color:#808030; '>+</span><span style='color:#808030; '>=</span> F <span style='color:#808030; '>*</span> <span style='color:#808030; '>(</span>dy <span style='color:#808030; '>/</span> r<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
<span style='color:#800080; '>}</span>
__syncthreads<span style='color:#808030; '>(</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
<span style='color:#800080; '>}</span>
a<span style='color:#808030; '>.</span><span style='color:#603000; '>array</span><span style='color:#808030; '>[</span>idx<span style='color:#808030; '>]</span> <span style='color:#808030; '>=</span> sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#800080; '>;</span>
<span style='color:#800080; '>}</span>
<span style='color:#800000; font-weight:bold; '>void</span> __global__ SimTick<span style='color:#808030; '>(</span>BodyArray a<span style='color:#808030; '>,</span> _T dt<span style='color:#808030; '>)</span>
<span style='color:#800080; '>{</span>
<span style='color:#800000; font-weight:bold; '>int</span> idx <span style='color:#808030; '>=</span> blockIdx<span style='color:#808030; '>.</span>x <span style='color:#808030; '>*</span> blockDim<span style='color:#808030; '>.</span>x <span style='color:#808030; '>+</span> threadIdx<span style='color:#808030; '>.</span>x<span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>int</span> tid <span style='color:#808030; '>=</span> threadIdx<span style='color:#808030; '>.</span>x<span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>extern</span> __shared__ SimBody sa<span style='color:#808030; '>[</span><span style='color:#808030; '>]</span><span style='color:#800080; '>;</span>
<span style='color:#800000; font-weight:bold; '>if</span> <span style='color:#808030; '>(</span>idx <span style='color:#808030; '>></span><span style='color:#808030; '>=</span> a<span style='color:#808030; '>.</span>size<span style='color:#808030; '>)</span>
<span style='color:#800000; font-weight:bold; '>return</span><span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span> <span style='color:#808030; '>=</span> a<span style='color:#808030; '>.</span><span style='color:#603000; '>array</span><span style='color:#808030; '>[</span>idx<span style='color:#808030; '>]</span><span style='color:#800080; '>;</span>
__syncthreads<span style='color:#808030; '>(</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
_T mass <span style='color:#808030; '>=</span> sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Mass<span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Velocity<span style='color:#808030; '>.</span>x <span style='color:#808030; '>+</span><span style='color:#808030; '>=</span> dt <span style='color:#808030; '>*</span> <span style='color:#808030; '>(</span>sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Force<span style='color:#808030; '>.</span>x <span style='color:#808030; '>/</span> mass<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Velocity<span style='color:#808030; '>.</span>y <span style='color:#808030; '>+</span><span style='color:#808030; '>=</span> dt <span style='color:#808030; '>*</span> <span style='color:#808030; '>(</span>sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Force<span style='color:#808030; '>.</span>y <span style='color:#808030; '>/</span> mass<span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Position<span style='color:#808030; '>.</span>x <span style='color:#808030; '>+</span><span style='color:#808030; '>=</span> dt <span style='color:#808030; '>*</span> sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Velocity<span style='color:#808030; '>.</span>x<span style='color:#800080; '>;</span>
sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Position<span style='color:#808030; '>.</span>y <span style='color:#808030; '>+</span><span style='color:#808030; '>=</span> dt <span style='color:#808030; '>*</span> sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#808030; '>.</span>Velocity<span style='color:#808030; '>.</span>y<span style='color:#800080; '>;</span>
__syncthreads<span style='color:#808030; '>(</span><span style='color:#808030; '>)</span><span style='color:#800080; '>;</span>
a<span style='color:#808030; '>.</span><span style='color:#603000; '>array</span><span style='color:#808030; '>[</span>idx<span style='color:#808030; '>]</span> <span style='color:#808030; '>=</span> sa<span style='color:#808030; '>[</span>tid<span style='color:#808030; '>]</span><span style='color:#800080; '>;</span>
<span style='color:#800080; '>}</span>
</div>
