source: CIVL/examples/translation/openclversion2.14/square.cvl@ ae48dce

1.23 2.0 acw/focus-triggers main test-branch
Last change on this file since ae48dce was 700ad59, checked in by Jacob Trieu <fuufusuu@…>, 12 years ago

git-svn-id: svn://vsl.cis.udel.edu/civl/trunk@1303 fb995dde-84ed-4084-dfe6-e5aef3e2452c

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File size: 7.2 KB
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[cc87898]1//Forget the program
2
[63d4ef2]3#include "cl.cvl"
[cc87898]4#include <stdio.h>
5#include <stdlib.h>
6#include <string.h>
7#include <civlc.h>
8
9$input int NUM_DEVICES;
10$input int MAX_NUM_DEVICES;
11$assume 0 < NUM_DEVICES && NUM_DEVICES < MAX_NUM_DEVICES;
12
13$input int DATA_SIZE;
14$input int MAX_DATA_SIZE;
15$assume 0 < DATA_SIZE && DATA_SIZE < MAX_NUM_DEVICES;
16
17$input int LOCAL;
18$input int MAX_LOCAL;
19$assume 0 < LOCAL && LOCAL < MAX_LOCAL;
20//this args struct will hold all the parameters of for the kernel function
21typedef struct
22{
23 //Variables for kernels
24
25 float * input;
26 float * output;
27 int count;
28
29}args;
30
31/*
32 args * argument - Takes in the struct, which is changed for every program using a different kernel
33*/
34cl_kernel clCreateKernel(args * argument)
35{
36 cl_kernel kernel;
37 kernel.arguments = argument;
38
39 return kernel;
40}
41
42/*
43 This is the kernel that processes compute with
44 int workgroup - Gives the workgroup that a particular process came from, made by clEnqueueNDRangeKernel
45 int global_id - Gives the global_id that a particular process has, given by workfunc
46 int local_id - Gives the local_id that a particular process has, given by workfunc
47 float* input - Kernel argument
48 float* output - Kernel argument
49 int count - Kernel argument
50*/
51void square(int workgroup, int global_id, int local_id, float* input, float* output, int count)
52{
53 //int i = get_global_id(0);
54 int i = global_id;
55 if (i < count)
56 {
57 output[i] = input[i] * input[i];
58 //printf("output[%d] is %d\n", i, output[i]);
59 }
60}
61/*
62 workfunc assigns local and global ids, before calling the kernel.
63 Note: The function should be identical in all transformations except the calling of the kernel, which means that it cannot be in openCLshared.cvl
64 size_t local - The size of the workgroups, used to calculate blocks
65 size_t global - The total amount of work to be done
66 cl_kernel param - Holds the data for local_id, global_id, and the workgroup
67 Use the print statement to get a better idea of what it means to split workgroups, local_ids, and global_ids
68*/
69void workfunc(size_t local, size_t global, cl_kernel param)
70{
71 $proc procs[local];
72 for(int i = local * param.workgroup; i < local * param.workgroup + local; i++)
73 {
74 param.local_id = i % local;
75 param.global_id = i;
76 printf("My workgroup id is %d, my global id is %d, my local id is %d\n", param.workgroup, param.global_id, param.local_id);
77 procs[param.local_id] = $spawn square(param.workgroup, param.global_id, param.local_id, ((args*)param.arguments)->input, ((args*)param.arguments)->output, ((args*)param.arguments)->count);
78 }
79 for(int j = 0; j < local; j++)
80 {
81 $wait(procs[j]);
82 }
83}
84
85/*
86 Splits up and spawns processes based on global and local, using block
87 TODO: remove cl_command_queue completely and put into a "just in case" file, currently not needed
88 cl_command_queue commands - Holds a queue of the order that devices are to be executed
89 cl_kernel kernel - Holds all the arguments for the kernel, as well as local_id, global_id, and the workgroup
90 size_t global - The total amount of work to be done
91 size_t local - Number to split into workgroups by
92*/
93int clEnqueueNDRangeKernel(cl_kernel kernel, size_t global, size_t local)
94{
[700ad59]95
[cc87898]96 $assert(global % local == 0);
97 int numworkgroups = global/local;
98 cl_kernel param[numworkgroups];
99 $proc procs[numworkgroups];
100 //consider $parfor
101
102 /*
103 $domain(1) dom = {0 .. numworkgroups - 1};
104
105 $for(int i: dom)
106 {
107 param[i] = kernel;
108 param[i].workgroup = i;
109 }
110 $parfor(int i: dom)
111 {
112 workfunc(local, global, param[i]);
113 }
114 */
115
116 for(int i = 0; i < global/local; i++)
117 {
118 param[i] = kernel;
119 param[i].workgroup = i;
120 procs[i] = $spawn workfunc(local, global, param[i]);
121 }
122
123 //this part here is the new clFinish(commands);
124 for(int i = 0; i < global/local; i++)
125 {
126 $wait(procs[i]);
127 }
128
129 return CL_SUCCESS;
[700ad59]130
[cc87898]131}
132
133
134int main(int argc, char** argv)
135{
136 args * arguments;
137 arguments = (args*)malloc(sizeof(args));
138
139 float data[DATA_SIZE]; // original data set given to device
140 float results[DATA_SIZE]; // results returned from device
141 unsigned int correct; // number of correct results returned
142
143 size_t global; // global domain size for our calculation
144 size_t local; // local domain size for our calculation
145
146 cl_device_id device_id; // compute device id
147 cl_context context; // compute context
148 cl_command_queue commands; // compute command queue
149 //cl_program program; // compute program
150 cl_kernel kernel; // compute kernel
151 int err;
152
153 float * input; // device memory used for the input array
154 float * output; // device memory used for the output array
155
156 //Puts in data for input
157 unsigned int count = DATA_SIZE;
158 for(int i = 0; i < count; i++)
159 {
160 data[i] = i;
161 }
162
163
164 //clCreateProgram is far different from the real version, this just stores parameters for the kernel
165 //In order to make this clear, it is clCreateProgram and not something like clCreateProgramFromSource, which actually exists in openCL code
166 //program = clCreateProgram(arguments);
167
168 kernel = clCreateKernel(arguments);
169
170 //replaces clCreateBuffer
171 input = (float *) malloc(sizeof(float) * count);
172 output = (float *) malloc(sizeof(float) * count);
173
174
175 //replaces clEnqueueWriteBuffer, puts data into the input to be put into the kernel arguments
176 memcpy(input, data, sizeof(float) * count);
177
178 /*
179 err = 0;
180 err = clSetKernelArg(kernel, 0, sizeof(cl_mem), &input);
181 err = clSetKernelArg(kernel, 1, sizeof(cl_mem), &output);
182 err = clSetKernelArg(kernel, 2, sizeof(unsigned int), &count);
183 */
184
185 //use pointer instead of malloc + memcpy for global variables
186 //((args*)kernel.arguments)->input = (float*)malloc(sizeof(float) * count);
187 //memcpy(((args *)kernel.arguments)->input, input, sizeof(float) * count);
188 ((args*)kernel.arguments)->input = input;
189
190 //((args*)kernel.arguments)->output = (float*)malloc(sizeof(float) * count);
191 //memcpy(((args*)kernel.arguments)->output, output, sizeof(float));
192 ((args*)kernel.arguments)->output = output;
193
194 ((args*)kernel.arguments)->count = count;
195 //no malloc needed for non pointers
196
197 //clGetKernelWorkGroupInfo would get a local size optimal for a device, but is not needed here
198 local = LOCAL;
199
200 global = count;
201 /*
202 commands holds the "order" of devices
203 kernel holds program, which holds variables
204 offset not implemented
205 */
206 err = clEnqueueNDRangeKernel(kernel, global, local);
207
208 //Replaces clEnqueueReadBuffer, which takes one of the saved variables and puts it out to another one
209 memcpy(results, output, sizeof(float) * count);
210
211 //verifies that all values in results are actually squared
212 correct = 0;
213 for(int i = 0; i < count; i++)
214 {
215 if(results[i] == data[i] * data[i])
216 {
217 correct++;
218 }
219 }
220 printf("Computed '%d/%d' correct values!\n", correct, count);
221
222 //TODO: Think of using void * array instead of regular arguments to make freeing easier
223
224 free(((args*)kernel.arguments)->input);
225 free(((args*)kernel.arguments)->output);
226 /*
227 free(input);
228 free(output);
229 */
230 free(arguments);
231
232 return 0;
233}
234
235
236
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