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authormichael-west <michael.west@ettus.com>2018-09-13 09:51:36 -0700
committerMartin Braun <martin.braun@ettus.com>2018-09-13 12:47:47 -0700
commit0523fd94e8c5d5b307880d4a82697b628146a377 (patch)
tree474223fa871ee513ba9c8744f29bbf0c05e76246 /host/lib
parentf558a9dc14e243a800795bd040d944cbaf451472 (diff)
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fixup! DDC/DUC: switch CORDIC -> DDS for all relevant variable names
Diffstat (limited to 'host/lib')
-rw-r--r--host/lib/usrp/cores/rx_dsp_core_3000.cpp14
-rw-r--r--host/lib/usrp/cores/tx_dsp_core_3000.cpp10
2 files changed, 12 insertions, 12 deletions
diff --git a/host/lib/usrp/cores/rx_dsp_core_3000.cpp b/host/lib/usrp/cores/rx_dsp_core_3000.cpp
index 7104d51a0..325ff5569 100644
--- a/host/lib/usrp/cores/rx_dsp_core_3000.cpp
+++ b/host/lib/usrp/cores/rx_dsp_core_3000.cpp
@@ -37,7 +37,6 @@ template <class T> T ceil_log2(T num){
using namespace uhd;
const double rx_dsp_core_3000::DEFAULT_CORDIC_FREQ = 0.0;
-const double rx_dsp_core_3000::DEFAULT_DDS_FREQ = 0.0;
const double rx_dsp_core_3000::DEFAULT_RATE = 1e6;
rx_dsp_core_3000::~rx_dsp_core_3000(void){
@@ -193,23 +192,24 @@ public:
// Caclulate algorithmic gain of CIC for a given decimation.
// For Ettus CIC R=decim, M=1, N=4. Gain = (R * M) ^ N
const double rate_pow = std::pow(double(decim & 0xff), 4);
- // Calculate compensation gain values for algorithmic gain of and CIC taking into account
+ // Calculate compensation gain values for algorithmic gain of CORDIC and CIC taking into account
// gain compensation blocks already hardcoded in place in DDC (that provide simple 1/2^n gain compensation).
+ // CORDIC algorithmic gain limits asymptotically around 1.647 after many iterations.
//
// The polar rotation of [I,Q] = [1,1] by Pi/8 also yields max magnitude of SQRT(2) (~1.4142) however
- // input to the DDS thats outside the unit circle can only be sourced from a saturated RF frontend.
+ // input to the CORDIC thats outside the unit circle can only be sourced from a saturated RF frontend.
// To provide additional dynamic range head room accordingly using scale factor applied at egress from DDC would
// cost us small signal performance, thus we do no provide compensation gain for a saturated front end and allow
// the signal to clip in the H/W as needed. If we wished to avoid the signal clipping in these circumstances then adjust code to read:
// _scaling_adjustment = std::pow(2, ceil_log2(rate_pow))/(1.648*rate_pow*1.415);
- _scaling_adjustment = std::pow(2, ceil_log2(rate_pow))/(2.0*rate_pow);
+ _scaling_adjustment = std::pow(2, ceil_log2(rate_pow))/(1.648*rate_pow);
this->update_scalar();
return _tick_rate/decim_rate;
}
- // Calculate compensation gain values for algorithmic gain of DDS and CIC taking into account
+ // Calculate compensation gain values for algorithmic gain of CORDIC and CIC taking into account
// gain compensation blocks already hardcoded in place in DDC (that provide simple 1/2^n gain compensation).
// Further more factor in OTW format which adds further gain factor to weight output samples correctly.
void update_scalar(void){
@@ -217,7 +217,7 @@ public:
const int32_t actual_scalar = boost::math::iround(target_scalar);
// Calculate the error introduced by using integer representation for the scalar, can be corrected in host later.
_fxpt_scalar_correction = target_scalar/actual_scalar;
- // Write DDC with scaling correction for CIC and DDS that maximizes dynamic range in 32/16/12/8bits.
+ // Write DDC with scaling correction for CIC and CORDIC that maximizes dynamic range in 32/16/12/8bits.
_iface->poke32(REG_DSP_RX_SCALE_IQ, actual_scalar);
}
@@ -283,7 +283,7 @@ public:
.set_coercer(boost::bind(&rx_dsp_core_3000::set_host_rate, this, _1))
;
subtree->create<double>("freq/value")
- .set(DEFAULT_DDS_FREQ)
+ .set(DEFAULT_CORDIC_FREQ)
.set_coercer(boost::bind(&rx_dsp_core_3000::set_freq, this, _1))
.set_publisher([this](){ return this->get_freq(); })
;
diff --git a/host/lib/usrp/cores/tx_dsp_core_3000.cpp b/host/lib/usrp/cores/tx_dsp_core_3000.cpp
index d548c543f..af0587c7f 100644
--- a/host/lib/usrp/cores/tx_dsp_core_3000.cpp
+++ b/host/lib/usrp/cores/tx_dsp_core_3000.cpp
@@ -28,7 +28,6 @@ template <class T> T ceil_log2(T num){
using namespace uhd;
const double tx_dsp_core_3000::DEFAULT_CORDIC_FREQ = 0.0;
-const double tx_dsp_core_3000::DEFAULT_DDS_FREQ = 0.0;
const double tx_dsp_core_3000::DEFAULT_RATE = 1e6;
tx_dsp_core_3000::~tx_dsp_core_3000(void){
@@ -105,15 +104,16 @@ public:
// Caclulate algorithmic gain of CIC for a given interpolation
// For Ettus CIC R=decim, M=1, N=3. Gain = (R * M) ^ N
const double rate_pow = std::pow(double(interp & 0xff), 3);
- // Calculate compensation gain values for algorithmic gain of DDS and CIC taking into account
+ // Calculate compensation gain values for algorithmic gain of CORDIC and CIC taking into account
// gain compensation blocks already hardcoded in place in DDC (that provide simple 1/2^n gain compensation).
- _scaling_adjustment = std::pow(2, ceil_log2(rate_pow))/(rate_pow);
+ // CORDIC algorithmic gain limits asymptotically around 1.647 after many iterations.
+ _scaling_adjustment = std::pow(2, ceil_log2(rate_pow))/(1.648*rate_pow);
this->update_scalar();
return _tick_rate/interp_rate;
}
- // Calculate compensation gain values for algorithmic gain of DDS and CIC taking into account
+ // Calculate compensation gain values for algorithmic gain of CORDIC and CIC taking into account
// gain compensation blocks already hardcoded in place in DDC (that provide simple 1/2^n gain compensation).
// Further more factor in OTW format which adds further gain factor to weight output samples correctly.
void update_scalar(void){
@@ -183,7 +183,7 @@ public:
.set_coercer(boost::bind(&tx_dsp_core_3000::set_host_rate, this, _1))
;
subtree->create<double>("freq/value")
- .set(DEFAULT_DDS_FREQ)
+ .set(DEFAULT_CORDIC_FREQ)
.set_coercer(boost::bind(&tx_dsp_core_3000::set_freq, this, _1))
.set_publisher([this](){ return this->get_freq(); })
;