标准单元库设计(三)
时间:2021-11-11 14:07:52
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[导读]SpecialcellsTapcells● Tapcellsareusedtoprovidesubstrateconnection.● Theyareusedtoavoidlatch-up.● Theyconnectn-welltoVDDandp-subtoVSS.● Theya...
Special cells
Fig4: Antenna diode● Another way to overcome antenna effect is to add jumpers. Use higher metal layers for connection.
Fig5: JumperDe cap cells (Decoupling capacitor cells)● De cap cells are capacitors added in design between power and ground rails.● When there is drop in power rail, these cells act like a battery and maintain the voltage across rails.● These cells aids IR drop issue and removes glitches in power.● In a design most of the power consumption is done by clock circuits. Assume that all the clock blocks are clustered in an area, then they will consume more power, i.e. they drew more current which will increase IR drop. In this case de cap cells can be used.End cap cell● End cap cells are added near the end of rows to terminate the rows properly.● The n-wells of end cap cells are properly terminated within the cell.Tie cell● Tie cells are used to avoid direct gate connection to the power or ground network thereby protecting the cell from damage.● In your design, some cell inputs may require a logic 0 or logic 1 value. Instead of connecting these to the VDD/VSS rails/rings, you connect them to special cells available in your library called TIE cells.● In tie high cell, nmos acts as diode connected and gives logic 0 to the gate of pmos, so we will get logic 1 as output whereas in tie low cell, pmos act as diode connected and gives logic 1 to the gate of nmos, so we will get logic 0 as output.
Fig6: Tie cellSpare cell● Spare cells are normal standard cells but they act as redundant cells as they are evenly distributed on the chip in anticipation of future ECO i.e, after the tape out.● After the tape out, sometimes we may have to make some changes to the design to resolve a bug. In these cases we use the pre existing spare cells in the design.● If we carry out the design changes with minimal layer changes, it will save a lot of cost from fabrication point of view as each mask layer has significant cost of its own.● Spare cell inputs are connected to VDD/GND when they are placed in the design and their outputs are left floating.● If they are required to be used, then their inputs are disconnected from VDD/GND and connected to functional logic in ECO mode.
Fig7: Spare CellCharacterization● Characterization is the generation of .lib files, done with respect to PVT corners.● Typically characterization is done for six different loads and six different transitions(slew)● Models used to generate .lib files are NLDM and CCS. CCS is more accurate when compared to NLDM.
Fig4: Antenna diode● Another way to overcome antenna effect is to add jumpers. Use higher metal layers for connection.
Fig5: JumperDe cap cells (Decoupling capacitor cells)● De cap cells are capacitors added in design between power and ground rails.● When there is drop in power rail, these cells act like a battery and maintain the voltage across rails.● These cells aids IR drop issue and removes glitches in power.● In a design most of the power consumption is done by clock circuits. Assume that all the clock blocks are clustered in an area, then they will consume more power, i.e. they drew more current which will increase IR drop. In this case de cap cells can be used.End cap cell● End cap cells are added near the end of rows to terminate the rows properly.● The n-wells of end cap cells are properly terminated within the cell.Tie cell● Tie cells are used to avoid direct gate connection to the power or ground network thereby protecting the cell from damage.● In your design, some cell inputs may require a logic 0 or logic 1 value. Instead of connecting these to the VDD/VSS rails/rings, you connect them to special cells available in your library called TIE cells.● In tie high cell, nmos acts as diode connected and gives logic 0 to the gate of pmos, so we will get logic 1 as output whereas in tie low cell, pmos act as diode connected and gives logic 1 to the gate of nmos, so we will get logic 0 as output.
Fig6: Tie cellSpare cell● Spare cells are normal standard cells but they act as redundant cells as they are evenly distributed on the chip in anticipation of future ECO i.e, after the tape out.● After the tape out, sometimes we may have to make some changes to the design to resolve a bug. In these cases we use the pre existing spare cells in the design.● If we carry out the design changes with minimal layer changes, it will save a lot of cost from fabrication point of view as each mask layer has significant cost of its own.● Spare cell inputs are connected to VDD/GND when they are placed in the design and their outputs are left floating.● If they are required to be used, then their inputs are disconnected from VDD/GND and connected to functional logic in ECO mode.
Fig7: Spare CellCharacterization● Characterization is the generation of .lib files, done with respect to PVT corners.● Typically characterization is done for six different loads and six different transitions(slew)● Models used to generate .lib files are NLDM and CCS. CCS is more accurate when compared to NLDM.
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