Design & Reuse
5449 IP
2001
1.0
UMC L55SP 55nm Clock Generator PLL - 520MHz-2600MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2002
1.0
UMC L55SP 55nm DDR DLL - 150MHz-750MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2003
1.0
UMC L55SP 55nm DDR DLL - 200MHz-1000MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2004
1.0
UMC L55SP 55nm DDR DLL - 316MHz-1580MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2005
1.0
UMC L55SP 55nm Deskew PLL - 130MHz-650MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2006
1.0
UMC L55SP 55nm Deskew PLL - 260MHz-1300MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2007
1.0
UMC L55SP 55nm Deskew PLL - 520MHz-2600MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2008
1.0
UMC L55SP 55nm Spread Spectrum PLL - 130MHz-650MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2009
1.0
UMC L55SP 55nm Spread Spectrum PLL - 260MHz-1300MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2010
1.0
UMC L55SP 55nm Spread Spectrum PLL - 520MHz-2600MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2011
1.0
UMC L65LL 65nm Clock Generator PLL - 120MHz-600MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2012
1.0
UMC L65LL 65nm Clock Generator PLL - 240MHz-1200MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2013
1.0
UMC L65LL 65nm Clock Generator PLL - 60MHz-300MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2014
1.0
UMC L65LL 65nm DDR DLL - 104MHz-520MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2015
1.0
UMC L65LL 65nm DDR DLL - 164MHz-820MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2016
1.0
UMC L65LL 65nm DDR DLL - 78MHz-390MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2017
1.0
UMC L65LL 65nm Deskew PLL - 120MHz-600MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2018
1.0
UMC L65LL 65nm Deskew PLL - 240MHz-1200MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2019
1.0
UMC L65LL 65nm Deskew PLL - 60MHz-300MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2020
1.0
UMC L65LL 65nm Spread Spectrum PLL - 120MHz-600MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2021
1.0
UMC L65LL 65nm Spread Spectrum PLL - 240MHz-1200MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2022
1.0
UMC L65LL 65nm Spread Spectrum PLL - 60MHz-300MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2023
1.0
UMC L65SP 65nm Clock Generator PLL - 130MHz-650MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2024
1.0
UMC L65SP 65nm Clock Generator PLL - 260MHz-1300MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2025
1.0
UMC L65SP 65nm Clock Generator PLL - 520MHz-2600MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2026
1.0
UMC L65SP 65nm DDR DLL - 150MHz-750MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2027
1.0
UMC L65SP 65nm DDR DLL - 200MHz-1000MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2028
1.0
UMC L65SP 65nm DDR DLL - 316MHz-1580MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2029
1.0
UMC L65SP 65nm Deskew PLL - 130MHz-650MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2030
1.0
UMC L65SP 65nm Deskew PLL - 260MHz-1300MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2031
1.0
UMC L65SP 65nm Deskew PLL - 520MHz-2600MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2032
1.0
UMC L65SP 65nm Spread Spectrum PLL - 130MHz-650MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2033
1.0
UMC L65SP 65nm Spread Spectrum PLL - 260MHz-1300MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2034
1.0
UMC L65SP 65nm Spread Spectrum PLL - 520MHz-2600MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2035
1.0
UMC L80G 80nm Clock Generator PLL - 120MHz-600MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2036
1.0
UMC L80G 80nm Clock Generator PLL - 240MHz-1200MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2037
1.0
UMC L80G 80nm Clock Generator PLL - 480MHz-2400MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2038
1.0
UMC L80G 80nm DDR DLL - 129MHz-645MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2039
1.0
UMC L80G 80nm DDR DLL - 172MHz-860MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2040
1.0
UMC L80G 80nm Deskew PLL - 120MHz-600MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2041
1.0
UMC L80G 80nm Deskew PLL - 240MHz-1200MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2042
1.0
UMC L80G 80nm Deskew PLL - 480MHz-2400MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
2043
1.0
UMC L80G 80nm Spread Spectrum PLL - 120MHz-600MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2044
1.0
UMC L80G 80nm Spread Spectrum PLL - 240MHz-1200MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2045
1.0
UMC L80G 80nm Spread Spectrum PLL - 480MHz-2400MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
2046
1.0
UMC L80GOD 80nm Clock Generator PLL - 150MHz-750MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2047
1.0
UMC L80GOD 80nm Clock Generator PLL - 300MHz-1500MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2048
1.0
UMC L80GOD 80nm Clock Generator PLL - 600MHz-3000MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
2049
1.0
UMC L80GOD 80nm DDR DLL - 150MHz-750MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
2050
1.0
UMC L80GOD 80nm DDR DLL - 200MHz-1000MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...