diff --git a/CMakeLists.txt b/CMakeLists.txt
index 43ad028d..7cfd9d11 100644
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -1,6 +1,8 @@
 cmake_minimum_required(VERSION 3.9)
 project(sdrpp)
 
+set(CMAKE_BUILD_TYPE "RelWithDebInfo")
+
 # Compiler config
 set(CMAKE_CXX_FLAGS "-O2 /std:c++17")
 
diff --git a/src/dsp/filter.h b/src/dsp/filter.h
index 575529a5..d8fb76d6 100644
--- a/src/dsp/filter.h
+++ b/src/dsp/filter.h
@@ -31,8 +31,8 @@ namespace dsp {
             
         }
 
-        DecimatingFIRFilter(stream<complex_t>* input, std::vector<float> taps, int blockSize, float decim) : output(blockSize * 2) {
-            output.init(blockSize * 2);
+        DecimatingFIRFilter(stream<complex_t>* input, std::vector<float> taps, int blockSize, float decim) {
+            output.init((blockSize * 2) / decim);
             _in = input;
             _blockSize = blockSize;
             _tapCount = taps.size();
@@ -54,7 +54,7 @@ namespace dsp {
         }
 
         void init(stream<complex_t>* input, std::vector<float>& taps, int blockSize, float decim) {
-            output.init(blockSize * 2);
+            output.init((blockSize * 2) / decim);
             _in = input;
             _blockSize = blockSize;
             _tapCount = taps.size();
@@ -107,6 +107,8 @@ namespace dsp {
             delayBuf = new complex_t[_tapCount];
             for (int i = 0; i < _tapCount; i++) {
                 _taps[i] = taps[i];
+                delayBuf[i].i = 0;
+                delayBuf[i].q = 0;
             }
         }
 
@@ -201,8 +203,8 @@ namespace dsp {
             
         }
 
-        FloatDecimatingFIRFilter(stream<float>* input, std::vector<float> taps, int blockSize, float decim) : output(blockSize * 2) {
-            output.init(blockSize * 2);
+        FloatDecimatingFIRFilter(stream<float>* input, std::vector<float> taps, int blockSize, float decim) {
+            output.init((blockSize * 2) / decim);
             _in = input;
             _blockSize = blockSize;
             _tapCount = taps.size();
@@ -223,7 +225,7 @@ namespace dsp {
         }
 
         void init(stream<float>* input, std::vector<float>& taps, int blockSize, float decim) {
-            output.init(blockSize * 2);
+            output.init((blockSize * 2) / decim);
             _in = input;
             _blockSize = blockSize;
             _tapCount = taps.size();
@@ -274,6 +276,7 @@ namespace dsp {
             delayBuf = new float[_tapCount];
             for (int i = 0; i < _tapCount; i++) {
                 _taps[i] = taps[i];
+                delayBuf[i] = 0;
             }
         }
 
diff --git a/src/dsp/legacy_stream.h b/src/dsp/legacy_stream.h
new file mode 100644
index 00000000..69d100bb
--- /dev/null
+++ b/src/dsp/legacy_stream.h
@@ -0,0 +1,221 @@
+#pragma once
+#include <condition_variable>
+#include <algorithm>
+#include <math.h>
+
+#define STREAM_BUF_SZ   1000000
+
+namespace dsp {
+    template <class T>
+    class stream {
+    public:
+        stream() {
+
+        }
+
+        stream(int maxLatency) {
+            size = STREAM_BUF_SZ;
+            _buffer = new T[size];
+            _stopReader = false;
+            _stopWriter = false;
+            this->maxLatency = maxLatency;
+            writec = 0;
+            readc = size - 1;
+        }
+
+        void init(int maxLatency) {
+            size = STREAM_BUF_SZ;
+            _buffer = new T[size];
+            _stopReader = false;
+            _stopWriter = false;
+            this->maxLatency = maxLatency;
+            writec = 0;
+            readc = size - 1;
+        }
+
+        int read(T* data, int len) {
+            int dataRead = 0;
+            while (dataRead < len) {
+                int canRead = waitUntilReadable();
+                if (canRead < 0) {
+                    printf("Reader stopped\n");
+                    clearReadStop();
+                    return -1;
+                }
+                int toRead = std::min(canRead, len - dataRead);
+
+                int len1 = (toRead >= (size - readc) ? (size - readc) : (toRead));
+
+                memcpy(&data[dataRead], &_buffer[readc], len1 * sizeof(T));
+                if (len1 < toRead) {
+                    memcpy(&data[dataRead + len1], _buffer, (toRead - len1) * sizeof(T));
+                }
+
+                dataRead += toRead;
+                readc_mtx.lock();
+                readc = (readc + toRead) % size;
+                readc_mtx.unlock();
+                canWriteVar.notify_one();
+            }
+            return len;
+        }
+
+        int readAndSkip(T* data, int len, int skip) {
+            int dataRead = 0;
+            while (dataRead < len) {
+                int canRead = waitUntilReadable();
+                if (canRead < 0) {
+                    printf("reader stopped (read and skip)\n");
+                    clearReadStop();
+                    return -1;
+                }
+                int toRead = std::min(canRead, len - dataRead);
+
+                int len1 = (toRead >= (size - readc) ? (size - readc) : (toRead));
+                memcpy(&data[dataRead], &_buffer[readc], len1 * sizeof(T));
+                if (len1 < toRead) {
+                    memcpy(&data[dataRead + len1], _buffer, (toRead - len1) * sizeof(T));
+                }
+
+                dataRead += toRead;
+                readc_mtx.lock();
+                readc = (readc + toRead) % size;
+                readc_mtx.unlock();
+                canWriteVar.notify_one();
+            }
+
+            // Skip
+
+            dataRead = 0;
+            while (dataRead < skip) {
+                int canRead = waitUntilReadable();
+                int toRead = std::min(canRead, skip - dataRead);
+
+                dataRead += toRead;
+                readc_mtx.lock();
+                readc = (readc + toRead) % size;
+                readc_mtx.unlock();
+                canWriteVar.notify_one();
+            }
+            return len;
+        }
+
+        int waitUntilReadable() {
+            int canRead = readable();
+            if (canRead > 0) {
+                return canRead;
+            }
+            std::unique_lock<std::mutex> lck(writec_mtx);
+            canReadVar.wait(lck, [=](){ return ((this->readable(false) > 0) || this->getReadStop()); });
+            if (this->getReadStop()) {
+                return -1;
+            }
+            return this->readable(false);
+        }
+
+        int readable(bool lock = true) {
+            if (lock) { writec_mtx.lock(); }
+            int _wc = writec;
+            if (lock) { writec_mtx.unlock(); }
+            int readable = (_wc - readc) % this->size;
+            if (_wc < readc) {
+                readable = (this->size + readable);
+            }
+            return readable - 1;
+        }
+
+        int write(T* data, int len) {
+            int dataWrite = 0;
+            while (dataWrite < len) {
+                int canWrite = waitUntilWriteable();
+                if (canWrite < 0) {
+                    printf("Writer stopped\n");
+                    clearWriteStop();
+                    return -1;
+                }
+                int toWrite = std::min(canWrite, len - dataWrite);
+
+                int len1 = (toWrite >= (size - writec) ? (size - writec) : (toWrite));
+
+                memcpy(&_buffer[writec], &data[dataWrite], len1 * sizeof(T));
+                if (len1 < toWrite) {
+                    memcpy(_buffer, &data[dataWrite + len1], (toWrite - len1) * sizeof(T));
+                }
+
+                dataWrite += toWrite;
+                writec_mtx.lock();
+                writec = (writec + toWrite) % size;
+                writec_mtx.unlock();
+                canReadVar.notify_one();
+            }
+            return len;
+        }
+
+        int waitUntilWriteable() {
+            int canWrite = writeable();
+            if (canWrite > 0) {
+                return canWrite;
+            }
+            std::unique_lock<std::mutex> lck(readc_mtx);
+            canWriteVar.wait(lck, [=](){ return ((this->writeable(false) > 0) || this->getWriteStop()); });
+            if (this->getWriteStop()) {
+                return -1;
+            }
+            return this->writeable(false);
+        }
+
+        int writeable(bool lock = true) {
+            if (lock) { readc_mtx.lock(); }
+            int _rc = readc;
+            if (lock) { readc_mtx.unlock(); }
+            int writeable = (_rc - writec) % this->size;
+            if (_rc < writec) {
+                writeable = (this->size + writeable);
+            }
+            return std::min<float>(writeable - 1, maxLatency - readable(false) - 1);
+        }
+
+        void stopReader() {
+            _stopReader = true;
+            canReadVar.notify_one();
+        }
+
+        void stopWriter() {
+            _stopWriter = true;
+            canWriteVar.notify_one();
+        }
+
+        bool getReadStop() {
+            return _stopReader;
+        }
+
+        bool getWriteStop() {
+            return _stopWriter;
+        }
+
+        void clearReadStop() {
+            _stopReader = false;
+        }
+
+        void clearWriteStop() {
+            _stopWriter = false;
+        }
+
+        void setMaxLatency(int maxLatency) {
+            this->maxLatency = maxLatency;
+        }
+
+    private:
+        T* _buffer;
+        int size;
+        int readc;
+        int writec;
+        int maxLatency;
+        bool _stopReader;
+        bool _stopWriter;
+        std::mutex readc_mtx;
+        std::mutex writec_mtx;
+        std::condition_variable canReadVar;
+        std::condition_variable canWriteVar;
+    };
+};
\ No newline at end of file
diff --git a/src/dsp/resampling.h b/src/dsp/resampling.h
index eb8e1b6f..eb53dffa 100644
--- a/src/dsp/resampling.h
+++ b/src/dsp/resampling.h
@@ -5,6 +5,8 @@
 #include <dsp/types.h>
 #include <numeric>
 
+#include <Windows.h>
+
 
 namespace dsp {
     template <class T>
@@ -21,7 +23,7 @@ namespace dsp {
         }
 
         void init(stream<T>* in, float interpolation, int blockSize) {
-            output.init(blockSize * 2);
+            output.init(blockSize * 2 * interpolation);
             _input = in;
             _interpolation = interpolation;
             _blockSize = blockSize;
@@ -194,6 +196,9 @@ namespace dsp {
         }
 
         void start() {
+            if (running) {
+                return;
+            }
             if (_interp != 1) {
                 interp.start();
             }
@@ -202,6 +207,9 @@ namespace dsp {
         }
 
         void stop() {
+            if (!running) {
+                return;
+            }
             interp.stop();
             decim.stop();
             running = false;
@@ -323,6 +331,9 @@ namespace dsp {
         }
 
         void start() {
+            if (running) {
+                return;
+            }
             if (_interp != 1) {
                 interp.start();
             }
@@ -331,8 +342,12 @@ namespace dsp {
         }
 
         void stop() {
+            if (!running) {
+                return;
+            }
             interp.stop();
-            decim.stop();
+            //decim.stop();
+            Sleep(200);
             running = false;
         }
 
diff --git a/src/dsp/routing.h b/src/dsp/routing.h
index e1d61f29..907b5622 100644
--- a/src/dsp/routing.h
+++ b/src/dsp/routing.h
@@ -26,7 +26,25 @@ namespace dsp {
         }
 
         void start() {
+            if (running) {
+                return;
+            }
             _workerThread = std::thread(_worker, this);
+            running = true;
+        }
+
+        void stop() {
+            if (!running) {
+                return;
+            }
+            _in->stopReader();
+            output_a.stopWriter();
+            output_b.stopWriter();
+            _workerThread.join();
+            _in->clearReadStop();
+            output_a.clearWriteStop();
+            output_b.clearWriteStop();
+            running = false;
         }
 
         stream<complex_t> output_a;
@@ -36,14 +54,16 @@ namespace dsp {
         static void _worker(Splitter* _this) {
             complex_t* buf = new complex_t[_this->_bufferSize];
             while (true) {
-                _this->_in->read(buf, _this->_bufferSize);
-                _this->output_a.write(buf, _this->_bufferSize);
-                _this->output_b.write(buf, _this->_bufferSize);
+                if (_this->_in->read(buf, _this->_bufferSize) < 0) { break; };
+                if (_this->output_a.write(buf, _this->_bufferSize) < 0) { break; };
+                if (_this->output_b.write(buf, _this->_bufferSize) < 0) { break; };
             }
+            delete[] buf;
         }
 
         stream<complex_t>* _in;
         int _bufferSize;
         std::thread _workerThread;
+        bool running = false;
     };
 };
\ No newline at end of file
diff --git a/src/dsp/stream.h b/src/dsp/stream.h
index 21daf512..fb6d5670 100644
--- a/src/dsp/stream.h
+++ b/src/dsp/stream.h
@@ -20,7 +20,10 @@ namespace dsp {
             _stopWriter = false;
             this->maxLatency = maxLatency;
             writec = 0;
-            readc = size - 1;
+            readc = 0;
+            readable = 0;
+            writable = size;
+            memset(_buffer, 0, size * sizeof(T));
         }
 
         void init(int maxLatency) {
@@ -30,35 +33,36 @@ namespace dsp {
             _stopWriter = false;
             this->maxLatency = maxLatency;
             writec = 0;
-            readc = size - 1;
+            readc = 0;
+            readable = 0;
+            writable = size;
+            memset(_buffer, 0, size * sizeof(T));
         }
 
         int read(T* data, int len) {
             int dataRead = 0;
+            int toRead = 0;
             while (dataRead < len) {
-                int canRead = waitUntilReadable();
-                if (canRead < 0) {
-                    if (_stopReader) {
-                        printf("Stop reader set");
-                    }
-                    else {
-                        printf("Stop not set");
-                    }
-                    clearReadStop();
-                    return -1;
-                }
-                int toRead = std::min(canRead, len - dataRead);
+                toRead = std::min<int>(waitUntilReadable(), len - dataRead);
+                if (toRead < 0) { return -1; };
 
-                int len1 = (toRead >= (size - readc) ? (size - readc) : (toRead));
-                memcpy(&data[dataRead], &_buffer[readc], len1 * sizeof(T));
-                if (len1 < toRead) {
-                    memcpy(&data[dataRead + len1], _buffer, (toRead - len1) * sizeof(T));
+                if ((toRead + readc) > size) {
+                    memcpy(&data[dataRead], &_buffer[readc], (size - readc) * sizeof(T));
+                    memcpy(&data[dataRead + (size - readc)], &_buffer[0], (toRead - (size - readc)) * sizeof(T));
                 }
-
+                else {
+                    memcpy(&data[dataRead], &_buffer[readc], toRead * sizeof(T));
+                }
+                
                 dataRead += toRead;
-                readc_mtx.lock();
+
+                _readable_mtx.lock();
+                readable -= toRead;
+                _readable_mtx.unlock();
+                _writable_mtx.lock();
+                writable += toRead;
+                _writable_mtx.unlock();
                 readc = (readc + toRead) % size;
-                readc_mtx.unlock();
                 canWriteVar.notify_one();
             }
             return len;
@@ -66,114 +70,113 @@ namespace dsp {
 
         int readAndSkip(T* data, int len, int skip) {
             int dataRead = 0;
+            int toRead = 0;
             while (dataRead < len) {
-                int canRead = waitUntilReadable();
-                if (canRead < 0) {
-                    clearReadStop();
-                    return -1;
-                }
-                int toRead = std::min(canRead, len - dataRead);
+                toRead = std::min<int>(waitUntilReadable(), len - dataRead);
+                if (toRead < 0) { return -1; };
 
-                int len1 = (toRead >= (size - readc) ? (size - readc) : (toRead));
-                memcpy(&data[dataRead], &_buffer[readc], len1 * sizeof(T));
-                if (len1 < toRead) {
-                    memcpy(&data[dataRead + len1], _buffer, (toRead - len1) * sizeof(T));
+                if ((toRead + readc) > size) {
+                    memcpy(&data[dataRead], &_buffer[readc], (size - readc) * sizeof(T));
+                    memcpy(&data[dataRead + (size - readc)], &_buffer[0], (toRead - (size - readc)) * sizeof(T));
+                }
+                else {
+                    memcpy(&data[dataRead], &_buffer[readc], toRead * sizeof(T));
                 }
 
                 dataRead += toRead;
-                readc_mtx.lock();
+
+                _readable_mtx.lock();
+                readable -= toRead;
+                _readable_mtx.unlock();
+                _writable_mtx.lock();
+                writable += toRead;
+                _writable_mtx.unlock();
                 readc = (readc + toRead) % size;
-                readc_mtx.unlock();
                 canWriteVar.notify_one();
             }
-
-            // Skip
-
             dataRead = 0;
             while (dataRead < skip) {
-                int canRead = waitUntilReadable();
-                int toRead = std::min(canRead, skip - dataRead);
+                toRead = std::min<int>(waitUntilReadable(), skip - dataRead);
+                if (toRead < 0) { return -1; };
 
                 dataRead += toRead;
-                readc_mtx.lock();
+
+                _readable_mtx.lock();
+                readable -= toRead;
+                _readable_mtx.unlock();
+                _writable_mtx.lock();
+                writable += toRead;
+                _writable_mtx.unlock();
                 readc = (readc + toRead) % size;
-                readc_mtx.unlock();
                 canWriteVar.notify_one();
             }
             return len;
         }
 
         int waitUntilReadable() {
-            int canRead = readable();
-            if (canRead > 0) {
-                return canRead;
-            }
-            std::unique_lock<std::mutex> lck(writec_mtx);
-            canReadVar.wait(lck, [=](){ return ((this->readable(false) > 0) || this->getReadStop()); });
-            if (this->getReadStop()) {
-                return -1;
-            }
-            return this->readable(false);
+            if (_stopReader) { return -1; }
+            int _r = getReadable();
+            if (_r != 0) { return _r; }
+            std::unique_lock<std::mutex> lck(_readable_mtx);
+            canReadVar.wait(lck, [=](){ return ((this->getReadable(false) > 0) || this->getReadStop()); });
+            if (_stopReader) { return -1; }
+            return getReadable(false);
         }
 
-        int readable(bool lock = true) {
-            if (lock) { writec_mtx.lock(); }
-            int _wc = writec;
-            if (lock) { writec_mtx.unlock(); }
-            int readable = (_wc - readc) % this->size;
-            if (_wc < readc) {
-                readable = (this->size + readable);
-            }
-            return readable - 1;
+        int getReadable(bool lock = true) {
+            if (lock) { _readable_mtx.lock(); };
+            int _r = readable;
+            if (lock) { _readable_mtx.unlock(); };
+            return _r;
         }
 
         int write(T* data, int len) {
-            int dataWrite = 0;
-            while (dataWrite < len) {
-                int canWrite = waitUntilWriteable();
-                if (canWrite < 0) {
-                    clearWriteStop();
-                    return -1;
-                }
-                int toWrite = std::min(canWrite, len - dataWrite);
+            int dataWritten = 0;
+            int toWrite = 0;
+            while (dataWritten < len) {
+                toWrite = std::min<int>(waitUntilwritable(), len - dataWritten);
+                if (toWrite < 0) { return -1; };
 
-                int len1 = (toWrite >= (size - writec) ? (size - writec) : (toWrite));
-                memcpy(&_buffer[writec], &data[dataWrite], len1 * sizeof(T));
-                if (len1 < toWrite) {
-                    memcpy(_buffer, &data[dataWrite + len1], (toWrite - len1) * sizeof(T));
+                if ((toWrite + writec) > size) {
+                    memcpy(&_buffer[writec], &data[dataWritten], (size - writec) * sizeof(T));
+                    memcpy(&_buffer[0], &data[dataWritten + (size - writec)], (toWrite - (size - writec)) * sizeof(T));
+                }
+                else {
+                    memcpy(&_buffer[writec], &data[dataWritten], toWrite * sizeof(T));
                 }
 
-                dataWrite += toWrite;
-                writec_mtx.lock();
+                dataWritten += toWrite;
+
+                _readable_mtx.lock();
+                readable += toWrite;
+                _readable_mtx.unlock();
+                _writable_mtx.lock();
+                writable -= toWrite;
+                _writable_mtx.unlock();
                 writec = (writec + toWrite) % size;
-                writec_mtx.unlock();
+                
                 canReadVar.notify_one();
             }
             return len;
         }
 
-        int waitUntilWriteable() {
-            int canWrite = writeable();
-            if (canWrite > 0) {
-                return canWrite;
-            }
-            std::unique_lock<std::mutex> lck(readc_mtx);
-            canWriteVar.wait(lck, [=](){ return ((this->writeable(false) > 0) || this->getWriteStop()); });
-            if (this->getWriteStop()) {
-                return -1;
-            }
-            return this->writeable(false);
+        int waitUntilwritable() {
+            if (_stopWriter) { return -1; }
+            int _w = getWritable();
+            if (_w != 0) { return _w; }
+            std::unique_lock<std::mutex> lck(_writable_mtx);
+            canWriteVar.wait(lck, [=](){ return ((this->getWritable(false) > 0) || this->getWriteStop()); });
+            if (_stopWriter) { return -1; }
+            return getWritable(false);
         }
 
-        int writeable(bool lock = true) {
-            if (lock) { readc_mtx.lock(); }
-            int _rc = readc;
-            if (lock) { readc_mtx.unlock(); }
-            int writeable = (_rc - writec) % this->size;
-            if (_rc < writec) {
-                writeable = (this->size + writeable);
-            }
-            return std::min<float>(writeable - 1, maxLatency - readable(false) - 1);
+        int getWritable(bool lock = true) {
+            if (lock) { _writable_mtx.lock(); };
+            int _w = writable;
+            if (lock) { _writable_mtx.unlock(); _readable_mtx.lock(); };
+            int _r = readable;
+            if (lock) { _readable_mtx.unlock(); };
+            return std::max<int>(std::min<int>(_w, maxLatency - _r), 0);
         }
 
         void stopReader() {
@@ -211,11 +214,13 @@ namespace dsp {
         int size;
         int readc;
         int writec;
+        int readable;
+        int writable;
         int maxLatency;
         bool _stopReader;
         bool _stopWriter;
-        std::mutex readc_mtx;
-        std::mutex writec_mtx;
+        std::mutex _readable_mtx;
+        std::mutex _writable_mtx;
         std::condition_variable canReadVar;
         std::condition_variable canWriteVar;
     };
diff --git a/src/main.cpp b/src/main.cpp
index cd113792..9dc1492c 100644
--- a/src/main.cpp
+++ b/src/main.cpp
@@ -33,7 +33,7 @@ int main() {
     glfwWindowHint(GLFW_OPENGL_FORWARD_COMPAT, GL_TRUE);            // Required on Mac
 
     // Create window with graphics context
-    GLFWwindow* window = glfwCreateWindow(1280, 720, "SDR++ v0.1.0", NULL, NULL);
+    GLFWwindow* window = glfwCreateWindow(1280, 720, "SDR++ v0.1.0 (Built at " __TIME__ ", " __DATE__ ")", NULL, NULL);
     if (window == NULL)
         return 1;
     glfwMakeContextCurrent(window);
diff --git a/src/main_window.cpp b/src/main_window.cpp
index 7e7f8c6b..03082265 100644
--- a/src/main_window.cpp
+++ b/src/main_window.cpp
@@ -49,7 +49,7 @@ void fftHandler(dsp::complex_t* samples) {
 }
 
 void windowInit() {
-    int sampleRate = 2000000;
+    int sampleRate = 8000000;
     wtf.bandWidth = sampleRate;
     wtf.range = 500000;
     wtf.centerFrequency = 90500000;
diff --git a/src/signal_path.cpp b/src/signal_path.cpp
index aa933d4e..5e8eed34 100644
--- a/src/signal_path.cpp
+++ b/src/signal_path.cpp
@@ -49,31 +49,31 @@ void SignalPath::setDemodulator(int demId) {
     audioResamp.stop();
 
     // Stop current demodulator
-    if (_demod == DEMOD_FM) {
-        printf("Stopping FM demodulator\n");
-        demod.stop();
-    }
-    else if (_demod == DEMOD_AM) {
-        printf("Stopping AM demodulator\n");
-        amDemod.stop();
-    }
-    _demod = demId;
+    // if (_demod == DEMOD_FM) {
+    //     printf("Stopping FM demodulator\n");
+    //     demod.stop();
+    // }
+    // else if (_demod == DEMOD_AM) {
+    //     printf("Stopping AM demodulator\n");
+    //     amDemod.stop();
+    // }
+    // _demod = demId;
 
-    // Set input of the audio resampler
-    if (demId == DEMOD_FM) {
-        printf("Starting FM demodulator\n");
-        mainVFO.setOutputSampleRate(200000, 200000);
-        audioResamp.setInput(&demod.output);
-        audioResamp.setInputSampleRate(200000, 800);
-        demod.start();
-    }
-    else if (demId == DEMOD_AM) {
-        printf("Starting AM demodulator\n");
-        mainVFO.setOutputSampleRate(12500, 12500);
-        audioResamp.setInput(&amDemod.output);
-        audioResamp.setInputSampleRate(12500, 50);
-        amDemod.start();
-    }
+    // // Set input of the audio resampler
+    // if (demId == DEMOD_FM) {
+    //     printf("Starting FM demodulator\n");
+    //     // mainVFO.setOutputSampleRate(200000, 200000);
+    //     // audioResamp.setInput(&demod.output);
+    //     // audioResamp.setInputSampleRate(200000, 800);
+    //     demod.start();
+    // }
+    // else if (demId == DEMOD_AM) {
+    //     printf("Starting AM demodulator\n");
+    //     mainVFO.setOutputSampleRate(12500, 12500);
+    //     audioResamp.setInput(&amDemod.output);
+    //     audioResamp.setInputSampleRate(12500, 50);
+    //     amDemod.start();
+    // }
 
     audioResamp.start();
 }