... | @@ -15,9 +15,9 @@ WRPC implements an IEEE1588 ordinary clock capable of reaching |
... | @@ -15,9 +15,9 @@ WRPC implements an IEEE1588 ordinary clock capable of reaching |
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sub-nanosecond accuracies and working both in Master and Slave modes. In
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sub-nanosecond accuracies and working both in Master and Slave modes. In
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master mode the WRPC uses externally-provided reference time and
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master mode the WRPC uses externally-provided reference time and
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frequency to synchronize other WR compliant devices. When running in the
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frequency to synchronize other WR compliant devices. When running in the
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slave mode, WRPC receives the timing information from a PTP master,
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slave mode, WRPC receives the timing information from a White Rabbit
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synchronizes its internal clock and provides the timing information for
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Master, synchronizes its internal clock and provides the timing
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other IP cores through a simple VHDL interface.
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information for other IP cores through a simple VHDL interface.
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The drawing below depicts the internal modules of WRPC:
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The drawing below depicts the internal modules of WRPC:
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... | @@ -124,7 +124,7 @@ Scheduled features may include: |
... | @@ -124,7 +124,7 @@ Scheduled features may include: |
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-----
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Daniel Florin - 26 November 2012
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Daniel Florin - 26 November 2012
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Last update: 3 March 2013
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Last update: 12 March 2013
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