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Comment: add info about BinarySafe

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Name

Default

Description

'AllowCascadedGCK'

‘No’

‘No’: Prohibit GCK cascade

‘Yes’: Allow GCK cascade

'Autosave'

'Yes'

Enable automatic protect save after each flow step.

'BypassingEffort'

'Medium'

Specify the DFF load and reset spreading level into the low-skew network (can be 'Low', 'Medium' or 'High'):

Low: all Load and Resetare sent in low skew

Medium: Impulse choose an effective balance

High: all Load and Reset are routed in common parts ( high routing constraint)

'CMICLatency'

'0'

Additional delay between 2 CMIC scans.

Integer value expressed in number of BSM clock cycles.

Total delay between 2 scans is:

(CMICLatency+1) * 2**16

'CongestionEffort'

'High'

Specify the routing resources limit per tile to leave and enter in the tile (can be 'Low', 'Medium' or 'High'):

  •         Low : less routing constraints but may need further more tiles and CGBs

  •         Medium : balanced routing constraints but may need more tiles and CGBs

  •         High : all routing resources

'Dynamic'

'No'

Refresh view while algorithms are running.

'DefaultFSMEncoding'

'OneHot'

Default encoding of finite state machine (can be 'OneHot', 'OneHotSafe', 'OneHotSafeExtra' or 'Binary'):

  •        Binary: minimum amount of bit is used (when others clause is used the mode is implicitly BinarySafe)

  •        OneHot: only one bit changes per state. Others case is not handled.

  •         OneHotSafe: detects invalid state where all bits are ‘0’ and returns to others case.

  •         OneHotSafeExtra: detects any invalid state where all bits are '0' or more than one bit to ‘1’ and returns to others case. Additional logic is implemented.

Example for binary encoding with 3 states:

Code Block
“00”, “01”, “10”

Example for one hot encoding with 3 states:

Code Block
“001”, “010”, “100”
Note

If state encoding is forced by the RTL code with the following example, the FSM is not reported in logs:

attribute enum_encoding of t_state_type : type is "01 10"

'DefaultRAMMapping'

'AUTO'

Default mapping of RAM (can be 'AUTO', 'RF', 'RAM' or 'RAM_ECC').

'DefaultROMMapping'

'AUTO'

Default mapping of ROM (can be 'AUTO', 'LUT', 'RF', 'RAM' or 'RAM_ECC').

'DensityEffort'

'Low'

Specify the tile instance resources allowed per tile like DFF,LUT, … (can be 'Low', 'Medium' or 'High'):

  • Low: less resources (less routing constraints but may need more tiles and CGBs): 70% is allowed

  • Medium: well suited resources: 80% is allowed

  • High: more resources (more routing constraints): 90% is allowed

'DisableAdderBasicMerge'

'No'

Disable carry optimization around adders and subtractors.

'DisableAdderTreeOptimization'

'No'

Disable adder mux reordering and adder tree balancing.

'DisableAdderTrivialRemoval'

'No'

Disable simplification of adder that could fit in 1 or 2 LUTs.

'DisableAssertionChecking'

'No'

Deactivate VHDL assertions.

'DisableDSPAluOperator'

'No'

Disable merge of ALU within inferred DSP.

'DisableDSPFullRecognition'

'No'

Disable inference of DSP.

'DisableDSPPreOperator'

'No'

Disable merge of pre-operator within inferred DSP.

'DisableDSPRegisters'

'No'

Disable merge of registers within inferred DSP.

'DisableRegisterMergeInDspForAdd'

‘No’

Disable merge of registers in DSP when used as adder

'DisableKeepPortOrdering'

'No'

Disable keep port ordering used in source files when generating HDL netlists.

'DisableLoadAndResetBypass'

'No'

Disable load and reset signal bypass on DFF.

'DisableRAMAlternateForm'

'No'

Disable recognition of registered address read port.

'DisableROMFullLutRecognition'

'No'

Disable merge of ROM recognized as LUT with logic.

'DisableRAMRegisters'

'No'

Disable merge of registers within inferred RAM.

‘ExhaustiveBitstream’

‘No’

Can be used to force generation of all configurations and contexts in bitstream (can be ‘No’, ‘Config’, ‘Context’ or ‘ConfigContext’).

'GenerateBitstreamCMIC'

'No'

Generate bitstream with CMIC.

‘InitializeContext’

'No'

Initialize all DFF, RFB and RAM of the chip.

It increases the bitstream size.

'IgnoreRAMFlashClear'

'No'

Do not output error when recognizing a RAM with flash clear.

'ManageAsynchronousReadPort'

'No'

If 'Yes', detect asynchronous read port in memories and repair it in synchronous read port. The read port receive the reversed write clock. It can slow down the design and sometimes may cause invalid behavior.

'ManageUnconnectedOutputs'

'Error'

Undriven outputs of HDL modules are treated as ‘Error', 'Ground', 'Power' or 'Preserve’.

Error: Generates an error

Ground: Connect to '0'

Power: Connect to '1'

Preserve: Preserve attribute set to avoid optimization

'ManageUnconnectedSignals'

'Error'

Undriven internal signals of HDL modules are treated as ‘Error', 'Ground', 'Power' or 'Preserve’.

Error: Generates an error

Ground: Connect to '0'

Power: Connect to '1'

Preserve: Preserve attribute set to avoid optimization

'ManageUninitializedLoops'

'No'

Remove reset-less looped DFF causing extra-mapping and 'X' values in simulation (can be 'No', 'Power, ''Ground').

'MappingEffort'

'Low'

Effort for an optimized mapping in terms of primitive instance merging and simplification (can be 'Low', 'Medium' or 'High'):

  •         Low: almost no optimization

  •         Medium: balanced optimizations

  •         High: almost all optimizations

'MaxRegisterCount'

'2500'

Maximum number of registers handled per HDL module (not the whole design) by the synthesizer.

‘OptimizedMux’

‘Yes’

If set to 'Yes', impulse will identify and convert every mux in the corresponding optimized 4-LUT structure.

'PartitioningEffort'

'Medium'

Define the size of the netlist subset which will be further optimized for timing goals achievement (can be 'Low', 'Medium' or 'High') :

  •         Low: small part

  •         Medium: medium part

  • · High: huge part

Info

Option is activated only if TimingDriven option is enabled.

'PolishingEffort'

'Medium'

It allows to regenerate locally a signal in TILE which in normal way should be provide by an others TILE in order to reduce utilization of routing resources.

  • Low: deactivate

  • Medium: can replicate LUT

  • High: can replicate LUT and DFF

'ReadyOffWithSoftReset'

‘Yes’

Only available for NG-ULTRA variant.

It links the ready falling edge to soft reset enabling during the power off reset sequence.

‘ReplicationApproval’

‘Yes’

Allow replication in a close TILE if not possible in the current TILE.

  •         No: Do not allow replication

  •         Yes: Allow replication

'RoutingEffort'

'Medium'

Routing Optimization level in terms of routing instances (can be 'Low', 'Medium' or 'High'):

  •         Low: no optimization

  •         Medium: balanced optimizations

  •         High: further optimizations but time consuming

‘SaveTiming'

‘No’

Save STA in .nym project files

  •         No: STA is not saved in project files

  •         Yes: STA is saved in project files

‘Seed’

‘1789’

Seed for placing algorithm start. Depending on the seed, instances are created in a different order and placed so.

Can be used in order to generate several Place & Route with the same synthesized project.

'SetRunAfterContext'

‘No’

Indicate the sequence in the bitstream between run (routing instances enable) and context (initialization values for DFF, RFB, RAM).

  •         No: Run is set before Context

  •         Yes: Run is set after Context

'SharingEffort'

'Medium'

Enables the insertion in lowskew network signal with fanout above the SharingFanout threshold.

  • Low: Lowskew insertion disabled

  • Medium/High: Lowskew insertion enabled

Medium and High have the same impact.

'SharingFanout'

'100'

Fanout threshold to insert signal in lowskew network.

This option has an impact only if SharingEffort is set to Medium or High.

‘SimplifyRegions’

‘Yes’

Clear module and region database:

  • delete modules without instance

  • delete regions without module

  • merge identical regions

‘SytemOutputDriven’

'No'

Increase placing close to the ring for instances communicating with.

  •         No: No priority for these instances in algorithm

  •         Yes: Allow priority for these instances in alogrithm

'TimingEffort'

‘High’

Indicates level of iterations for TimingDriven algorithm.

  •         Low: no iteration

  •         Medium: a few iteration

  •         High: more iterations

Info

Option is activated only if TimingDriven option is enabled.

Note

For heavy designs, runtime can increase drastically depending on number of iterations.

'UnusedPads'

'Floating'

State in which the pads must be set when not used. Values can be 'Floating','WeakPullUp', 'WeakPullDown'. Note that when the state is different from 'floating', all the pads are serialized in the bitstream.

Note that ‘WeakPulldown’ value is not available on NX1H35S component.

‘VariantAwareSynthesis’

‘Yes’

If set to ‘Yes’ synthesis will automatically map to equivalent resource when specific resource is depleted. For example using DSP when there are no more CY available (can be ‘Yes’ or ‘No’).

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