Stop a running small molecule design run

client.SmallMolecule.Design.Stop(ctx, id) (*SmallMoleculeDesignStopResponse, error)

POST/compute/v1/small-molecule/design/{id}/stop

Stop an in-progress design run early

ParametersExpand Collapse

id string

ReturnsExpand Collapse

type SmallMoleculeDesignStopResponse struct{…}

A small molecule design engine run that generates novel molecules

ID string

Unique SmDesignRun identifier

CompletedAt Time

formatdate-time

CreatedAt Time

formatdate-time

DataDeletedAt Time

When the input, output, and result data was permanently deleted. Null if data has not been deleted.

formatdate-time

Engine BoltzSmDesign

Engine used for small molecule design

EngineVersion string

Engine version used for small molecule design

Error SmallMoleculeDesignStopResponseError

Code string

Machine-readable error code

Message string

Human-readable error message

Details anyoptional

Additional field-level error details keyed by input path, when available.

Input SmallMoleculeDesignStopResponseInput

Pipeline input (null if data deleted)

NumMolecules int64

Number of molecules to generate. Must be between 10 and 1,000,000.

minimum10

maximum1000000

Target SmallMoleculeDesignStopResponseInputTarget

Target protein with binding pocket for small molecule design or screening

Entities []SmallMoleculeDesignStopResponseInputTargetEntity

Protein entities defining the target structure. Each entity represents a protein chain.

ChainIDs []string

Chain IDs for this entity

Type Protein

Value string

Amino acid sequence (one-letter codes)

Cyclic booloptional

Whether the sequence is cyclic

Modifications []SmallMoleculeDesignStopResponseInputTargetEntityModificationUnionoptional

Post-translational modifications. Optional; defaults to an empty list when omitted.

Accepts one of the following:

type SmallMoleculeDesignStopResponseInputTargetEntityModificationCcdModificationResponse struct{…}

ResidueIndex int64

0-based index of the residue to modify

minimum0

Type Ccd

Value string

CCD code from RCSB PDB (e.g. 'MSE' for selenomethionine, 'SEP' for phosphoserine)

type SmallMoleculeDesignStopResponseInputTargetEntityModificationSmilesModificationResponse struct{…}

ResidueIndex int64

0-based index of the residue to modify

minimum0

Type Smiles

Value string

SMILES string for the modification

Bonds []SmallMoleculeDesignStopResponseInputTargetBondoptional

Covalent bond constraints between atoms in the target complex. Atom-level ligand references currently support ligand_ccd only; ligand_smiles is unsupported.

Atom1 SmallMoleculeDesignStopResponseInputTargetBondAtom1Union

Ligand atom reference. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

Accepts one of the following:

type SmallMoleculeDesignStopResponseInputTargetBondAtom1LigandAtomResponse struct{…}

Ligand atom reference. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

AtomName string

Standardized atom name (verifiable in CIF file on RCSB). Atom-level references to ligand_smiles entities are currently unsupported; use ligand_ccd instead.

ChainID string

Chain ID containing the atom

Type LigandAtom

type SmallMoleculeDesignStopResponseInputTargetBondAtom1PolymerAtomResponse struct{…}

AtomName string

Standardized atom name (verifiable in CIF file on RCSB)

ChainID string

Chain ID containing the atom

ResidueIndex int64

0-based residue index

minimum0

Type PolymerAtom

Atom2 SmallMoleculeDesignStopResponseInputTargetBondAtom2Union

Ligand atom reference. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

Accepts one of the following:

type SmallMoleculeDesignStopResponseInputTargetBondAtom2LigandAtomResponse struct{…}

Ligand atom reference. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

AtomName string

Standardized atom name (verifiable in CIF file on RCSB). Atom-level references to ligand_smiles entities are currently unsupported; use ligand_ccd instead.

ChainID string

Chain ID containing the atom

Type LigandAtom

type SmallMoleculeDesignStopResponseInputTargetBondAtom2PolymerAtomResponse struct{…}

AtomName string

Standardized atom name (verifiable in CIF file on RCSB)

ChainID string

Chain ID containing the atom

ResidueIndex int64

0-based residue index

minimum0

Type PolymerAtom

Constraints []SmallMoleculeDesignStopResponseInputTargetConstraintUnionoptional

Structural constraints (pocket and contact). Atom-level ligand references currently support ligand_ccd only; ligand_smiles is unsupported.

Accepts one of the following:

type SmallMoleculeDesignStopResponseInputTargetConstraintPocketConstraintResponse struct{…}

Constrains the binder to interact with specific pocket residues on the target.

BinderChainID string

Chain ID of the binder molecule

ContactResidues map[string, []int64]

Binding pocket residues keyed by chain ID. Each key is a chain ID (e.g. "A") and the value is an array of 0-indexed residue indices that define the pocket on that chain.

MaxDistanceAngstrom float64

Maximum allowed distance in Angstroms between binder and pocket residues. Typical range: 4-8 A.

Type Pocket

Force booloptional

Whether to force the constraint

type SmallMoleculeDesignStopResponseInputTargetConstraintContactConstraintResponse struct{…}

Contact constraint between two tokens. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

MaxDistanceAngstrom float64

Maximum distance in Angstroms

Token1 SmallMoleculeDesignStopResponseInputTargetConstraintContactConstraintResponseToken1Union

Ligand contact token. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

Accepts one of the following:

type SmallMoleculeDesignStopResponseInputTargetConstraintContactConstraintResponseToken1PolymerContactTokenResponse struct{…}

ChainID string

Chain ID

ResidueIndex int64

0-based residue index

minimum0

Type PolymerContact

type SmallMoleculeDesignStopResponseInputTargetConstraintContactConstraintResponseToken1LigandContactTokenResponse struct{…}

Ligand contact token. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

AtomName string

Atom name. Atom-level references to ligand_smiles entities are currently unsupported; use ligand_ccd instead.

ChainID string

Chain ID

Type LigandContact

Token2 SmallMoleculeDesignStopResponseInputTargetConstraintContactConstraintResponseToken2Union

Ligand contact token. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

Accepts one of the following:

type SmallMoleculeDesignStopResponseInputTargetConstraintContactConstraintResponseToken2PolymerContactTokenResponse struct{…}

ChainID string

Chain ID

ResidueIndex int64

0-based residue index

minimum0

Type PolymerContact

type SmallMoleculeDesignStopResponseInputTargetConstraintContactConstraintResponseToken2LigandContactTokenResponse struct{…}

Ligand contact token. Atom-level ligand references currently support ligand_ccd entities only; ligand_smiles is unsupported.

AtomName string

Atom name. Atom-level references to ligand_smiles entities are currently unsupported; use ligand_ccd instead.

ChainID string

Chain ID

Type LigandContact

Type Contact

Force booloptional

Whether to force the constraint

PocketResidues map[string, []int64]optional

Binding pocket residues, keyed by chain ID. Each key is a chain ID (e.g. "A") and the value is an array of 0-indexed residue indices that define the binding pocket on that chain. When provided, these residues guide pocket extraction and add a derived pocket constraint during affinity predictions. That derived constraint remains separate from any explicit pocket constraints in target.constraints. When omitted, the model auto-detects the pocket.

ReferenceLigands []stringoptional

Reference ligands as SMILES strings that help the model identify the binding pocket. When omitted, a set of drug-like default ligands is used for pocket detection.

ChemicalSpace stringoptional

Chemical space to constrain generated molecules. Currently only 'enamine_real' (Enamine REAL chemical space) is supported. Additional options may be added in the future.

IdempotencyKey stringoptional

Client-provided key to prevent duplicate submissions on retries

maxLength255

MoleculeFilters SmallMoleculeDesignStopResponseInputMoleculeFiltersoptional

Molecule filtering configuration. Controls both Boltz built-in SMARTS filtering and custom filters.

BoltzSmartsCatalogFilterLevel SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLeveloptional

Controls the stringency of Boltz's built-in SMARTS structural alert filtering, which removes molecules matching known problematic substructures. 'recommended' (default): applies a curated set of alerts balancing safety and hit rate. 'extra': adds additional alerts beyond the recommended set for stricter filtering. 'aggressive': applies the most comprehensive alert set — may reject viable molecules. 'disabled': turns off Boltz SMARTS filtering entirely; only custom_filters will be applied.

Accepts one of the following:

const SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLevelRecommended SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLevel = "recommended"

const SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLevelExtra SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLevel = "extra"

const SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLevelAggressive SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLevel = "aggressive"

const SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLevelDisabled SmallMoleculeDesignStopResponseInputMoleculeFiltersBoltzSmartsCatalogFilterLevel = "disabled"

CustomFilters []SmallMoleculeDesignStopResponseInputMoleculeFiltersCustomFilterUnionoptional

Custom filters to apply. Molecules must pass all filters (AND logic).

Accepts one of the following:

type SmallMoleculeDesignStopResponseInputMoleculeFiltersCustomFilterLipinskiFilterResponse struct{…}

Lipinski's Rule of Five filter. Rejects molecules that violate drug-likeness criteria based on molecular weight, LogP, hydrogen bond donors, and hydrogen bond acceptors.

MaxHba float64

Maximum number of hydrogen bond acceptors. Lipinski threshold: 10

MaxHbd float64

Maximum number of hydrogen bond donors. Lipinski threshold: 5

MaxLogp float64

Maximum LogP. Lipinski threshold: 5

MaxMw float64

Maximum molecular weight (Da). Lipinski threshold: 500

Type LipinskiFilter

AllowSingleViolation booloptional

If true, one rule violation is allowed (classic Rule of Five). Defaults to false (all rules must pass).

type SmallMoleculeDesignStopResponseInputMoleculeFiltersCustomFilterRdkitDescriptorFilterResponse struct{…}

Filter molecules by RDKit molecular descriptors. Each descriptor is constrained to a min/max range. Only descriptors you provide are checked — omitted descriptors are unconstrained.

Type RdkitDescriptorFilter

FractionCsp3 SmallMoleculeDesignStopResponseInputMoleculeFiltersCustomFilterRdkitDescriptorFilterResponseFractionCsp3optional

Min/max range constraint for an RDKit molecular descriptor

Max float64optional

Maximum allowed value (inclusive)

Min float64optional