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RBC_Java.java
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RBC_Java.java
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/*Basic RBC model with full depreciation
*
* Jesus Fernandez-Villaverde
*Haverford, July 3, 2013
*/
//package rbc_java;
public class RBC_Java {
public static void main(String[] args) {
/////////////////////////////////////////////////////////////////////
// 0. Housekeeping
/////////////////////////////////////////////////////////////////////
long start = System.nanoTime();
/////////////////////////////////////////////////////////////////////
// 1. Calibration
/////////////////////////////////////////////////////////////////////
double aalpha = 0.33333333333; //Elasticity of output w.r.t. capital
double bbeta = 0.95; //Discount factor
//Productivity values
double[] vProductivity = {0.9792, 0.9896, 1.0000, 1.0106, 1.0212};
//Transition matrix
double[][] mTransition = {
{0.9727, 0.0273, 0.0000, 0.0000, 0.0000},
{0.0041, 0.9806, 0.0153, 0.0000, 0.0000},
{0.0000, 0.0082, 0.9837, 0.0082, 0.0000},
{0.0000, 0.0000, 0.0153, 0.9806, 0.0041},
{0.0000, 0.0000, 0.0000, 0.0273, 0.9727}
};
/////////////////////////////////////////////////////////////////////
// 2. Steady State
/////////////////////////////////////////////////////////////////////
double capitalSteadyState = Math.pow(aalpha*bbeta,1/(1-aalpha));
double outputSteadyState = Math.pow(capitalSteadyState,aalpha);
double consumptionSteadyState = outputSteadyState-capitalSteadyState;
System.out.println("Output = " + outputSteadyState + ", Capital = " +
capitalSteadyState + ", Consumption = " + consumptionSteadyState
+ "\n");
//We generate the grid of capital
int nCapital, nCapitalNextPeriod, gridCapitalNextPeriod, nProductivity,
nProductivityNextPeriod;
int nGridCapital = 17820, nGridProductivity = 5;
double[] vGridCapital = new double[nGridCapital];
for (nCapital = 0; nCapital < nGridCapital; nCapital++){
vGridCapital[nCapital] = 0.5*capitalSteadyState+0.00001*nCapital;
}
/////////////////////////////////////////////////////////////////////
// 3. Required matrices and vectors
/////////////////////////////////////////////////////////////////////
double[][] mOutput = new double[nGridCapital][nGridProductivity];
double[][] mValueFunction = new double[nGridCapital][nGridProductivity];
double[][] mValueFunctionNew = new double[nGridCapital][nGridProductivity];
double[][] mPolicyFunction = new double[nGridCapital][nGridProductivity];
double[][] expectedValueFunction = new double[nGridCapital][nGridProductivity];
/////////////////////////////////////////////////////////////////////
// 4. We pre-build output for each point in the grid
/////////////////////////////////////////////////////////////////////
for(nProductivity = 0; nProductivity < nGridProductivity; nProductivity++){
for(nCapital = 0; nCapital < nGridCapital; nCapital++){
mOutput[nCapital][nProductivity] =
vProductivity[nProductivity]*Math.pow(vGridCapital[nCapital],aalpha);
}
}
/////////////////////////////////////////////////////////////////////
// 5. Main iteration
/////////////////////////////////////////////////////////////////////
double maxDifference = 10.0, diff, diffHighSoFar;
double tolerance = 0.0000001;
double valueHighSoFar, valueProvisional, consumption, capitalChoice;
int iteration = 0;
while(maxDifference > tolerance){
for(nProductivity = 0; nProductivity < nGridProductivity; nProductivity++){
for(nCapital = 0; nCapital < nGridCapital; nCapital++){
expectedValueFunction[nCapital][nProductivity] = 0.0;
for(nProductivityNextPeriod = 0; nProductivityNextPeriod < nGridProductivity; nProductivityNextPeriod++){
expectedValueFunction[nCapital][nProductivity] +=
mTransition[nProductivity][nProductivityNextPeriod]*
mValueFunction[nCapital][nProductivityNextPeriod];
}
}
}
for(nProductivity = 0; nProductivity < nGridProductivity; nProductivity++){
//We start from previous choice (monotonicity of policy function)
gridCapitalNextPeriod = 0;
for(nCapital = 0; nCapital < nGridCapital; nCapital++){
valueHighSoFar = -100000.0;
capitalChoice = vGridCapital[0];
for(nCapitalNextPeriod = gridCapitalNextPeriod; nCapitalNextPeriod < nGridCapital; nCapitalNextPeriod++){
consumption = mOutput[nCapital][nProductivity] - vGridCapital[nCapitalNextPeriod];
valueProvisional = (1 - bbeta)*Math.log(consumption)+bbeta*expectedValueFunction[nCapitalNextPeriod][nProductivity];
if(valueProvisional > valueHighSoFar){
valueHighSoFar = valueProvisional;
capitalChoice = vGridCapital[nCapitalNextPeriod];
gridCapitalNextPeriod = nCapitalNextPeriod;
}
else{
break; //We break when we have achieved the max
}
mValueFunctionNew[nCapital][nProductivity] = valueHighSoFar;
mPolicyFunction[nCapital][nProductivity] = capitalChoice;
}
}
}
diffHighSoFar = -100000.0;
for(nProductivity = 0; nProductivity < nGridProductivity; nProductivity++){
for(nCapital = 0; nCapital < nGridCapital; nCapital++){
diff = Math.abs(mValueFunction[nCapital][nProductivity] -
mValueFunctionNew[nCapital][nProductivity]);
if(diff > diffHighSoFar){
diffHighSoFar = diff;
}
mValueFunction[nCapital][nProductivity] = mValueFunctionNew[nCapital][nProductivity];
}
}
maxDifference = diffHighSoFar;
iteration = iteration + 1;
if(iteration % 10 == 0 || iteration == 1){
System.out.println("Iteration = " + iteration + ", Sup Diff = " + maxDifference);
}
}
System.out.println("Iteration = " + iteration + ", Sup Diff = " + maxDifference + "\n");
System.out.println("My check = " + mPolicyFunction[999][2] + "\n");
long end = System.nanoTime();
long timeDifference = end - start;
double nanoSecs = 1000000000;
System.out.println("Elapsed time is " + timeDifference/nanoSecs + " seconds.");
}
}