diff --git a/go.mod b/go.mod
index f5577f2..4f012c7 100644
--- a/go.mod
+++ b/go.mod
@@ -1,10 +1,12 @@
 module go.flow.arcalot.io/engine
 
-go 1.21
+go 1.22.0
+
+toolchain go1.22.2
 
 require (
 	go.arcalot.io/assert v1.8.0
-	go.arcalot.io/dgraph v1.6.0
+	go.arcalot.io/dgraph v1.7.0
 	go.arcalot.io/lang v1.1.0
 	go.arcalot.io/log/v2 v2.2.0
 	go.flow.arcalot.io/deployer v0.6.1
diff --git a/go.sum b/go.sum
index 6d17e09..2ef708c 100644
--- a/go.sum
+++ b/go.sum
@@ -123,8 +123,8 @@ github.com/yuin/goldmark v1.1.27/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9de
 github.com/yuin/goldmark v1.2.1/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9decYSb74=
 go.arcalot.io/assert v1.8.0 h1:hGcHMPncQXwQvjj7MbyOu2gg8VIBB00crUJZpeQOjxs=
 go.arcalot.io/assert v1.8.0/go.mod h1:nNmWPoNUHFyrPkNrD2aASm5yPuAfiWdB/4X7Lw3ykHk=
-go.arcalot.io/dgraph v1.6.0 h1:mJFZ1vdPEg3KtqyhNqYtWVAkxxWBWoJVUFZQ2Z4mbvE=
-go.arcalot.io/dgraph v1.6.0/go.mod h1:+Kxc81utiihMSmC1/ttSPGLDlWPpvgOpNxSFmIDPxFM=
+go.arcalot.io/dgraph v1.7.0 h1:KmVoPoV7jKbc7DgBS7Bmh/gliEXw4S4kyeVpPvyIygs=
+go.arcalot.io/dgraph v1.7.0/go.mod h1:P8mMBGCZbIMVe08iw0afFBMl1QM3aJk+MU//Q2Z5rJc=
 go.arcalot.io/exex v0.2.0 h1:u44pjwPwcH57TF8knhaqVZP/1V/KbnRe//pKzMwDpLw=
 go.arcalot.io/exex v0.2.0/go.mod h1:5zlFr+7vOQNZKYCNOEDdsad+z/dlvXKs2v4kG+v+bQo=
 go.arcalot.io/lang v1.1.0 h1:ugglRKpd3qIMkdghAjKJxsziIgHm8QpxrzZPSXoa08I=
@@ -135,8 +135,6 @@ go.flow.arcalot.io/deployer v0.6.1 h1:Q65VHeRZzdrMJZqTRb26EQZQbK+C3pORETVlpw02xW
 go.flow.arcalot.io/deployer v0.6.1/go.mod h1:Oh+71KYQEof6IS3UGhpMyjQQPRcuomUccn7fwAqrPxE=
 go.flow.arcalot.io/dockerdeployer v0.7.3 h1:CLvSdqfoE8oZADI0wfry46SXR4CQjB6Qh+6Ym70zheQ=
 go.flow.arcalot.io/dockerdeployer v0.7.3/go.mod h1:YWw9+GbYJxEnlahlYCx4UOJe+QNkecf8+EBtSIQD0aE=
-go.flow.arcalot.io/expressions v0.4.3 h1:0BRRghutHp0sctsITHe/A1le0yYiJtKNTxm27T+P6Og=
-go.flow.arcalot.io/expressions v0.4.3/go.mod h1:UORX78N4ep71wOzNXdIo/UY+6SdDD0id0mvuRNEQMeM=
 go.flow.arcalot.io/expressions v0.4.4 h1:bYTC7YDmgDWcsdyY41+IvTJbvsM1rdE3ZBJhB+jNPHQ=
 go.flow.arcalot.io/expressions v0.4.4/go.mod h1:0Y2LgynO1SWA4bqsnKlCxqLME9zOR8tWKg3g+RG+FFQ=
 go.flow.arcalot.io/kubernetesdeployer v0.9.3 h1:XKiqmCqXb6ZLwP5IQTAKS/gJHpq0Ub/yEjCfgAwQF2A=
diff --git a/internal/infer/infer.go b/internal/infer/infer.go
index 6c4b54b..39bd221 100644
--- a/internal/infer/infer.go
+++ b/internal/infer/infer.go
@@ -82,6 +82,8 @@ func Type(
 			return nil, fmt.Errorf("failed to evaluate type of expression %s (%w)", expr.String(), err)
 		}
 		return oneOfType, nil
+	case *OptionalExpression:
+		return Type(expr.Expr, internalDataModel, functions, workflowContext)
 	}
 
 	v := reflect.ValueOf(data)
@@ -198,14 +200,17 @@ func objectType(
 ) (schema.Type, error) {
 	properties := make(map[string]*schema.PropertySchema, value.Len())
 	for _, keyValue := range value.MapKeys() {
-		propertyType, err := Type(value.MapIndex(keyValue).Interface(), internalDataModel, functions, workflowContext)
+		inferredValue := value.MapIndex(keyValue).Interface()
+		propertyType, err := Type(inferredValue, internalDataModel, functions, workflowContext)
 		if err != nil {
 			return nil, fmt.Errorf("failed to infer property %s type (%w)", keyValue.Interface(), err)
 		}
+		_, isOptionalExpr := inferredValue.(*OptionalExpression)
+
 		properties[keyValue.Interface().(string)] = schema.NewPropertySchema(
 			propertyType,
 			nil,
-			true,
+			!isOptionalExpr,
 			nil,
 			nil,
 			nil,
diff --git a/internal/infer/optional_expression.go b/internal/infer/optional_expression.go
new file mode 100644
index 0000000..845ebd3
--- /dev/null
+++ b/internal/infer/optional_expression.go
@@ -0,0 +1,13 @@
+package infer
+
+import (
+	"go.flow.arcalot.io/expressions"
+)
+
+// OptionalExpression is an expression that can be used in an object as an optional field.
+type OptionalExpression struct {
+	Expr              expressions.Expression
+	WaitForCompletion bool
+	GroupNodePath     string
+	ParentNodePath    string
+}
diff --git a/workflow/any.go b/workflow/any.go
index 742df22..e744fe6 100644
--- a/workflow/any.go
+++ b/workflow/any.go
@@ -45,7 +45,7 @@ func (a *anySchemaWithExpressions) Serialize(data any) (any, error) {
 
 func (a *anySchemaWithExpressions) checkAndConvert(data any) (any, error) {
 	switch data.(type) {
-	case expressions.Expression, infer.OneOfExpression, *infer.OneOfExpression:
+	case expressions.Expression, infer.OneOfExpression, *infer.OneOfExpression, *infer.OptionalExpression:
 		return data, nil
 	}
 	t := reflect.ValueOf(data)
diff --git a/workflow/executor.go b/workflow/executor.go
index bf22e74..bca266c 100644
--- a/workflow/executor.go
+++ b/workflow/executor.go
@@ -577,13 +577,13 @@ func (e *executor) createTypeStructure(rootSchema schema.Scope, inputField any,
 		return inputField.Type(rootSchema, e.callableFunctionSchemas, workflowContext)
 	case *infer.OneOfExpression:
 		return inputField.Type(rootSchema, e.callableFunctionSchemas, workflowContext)
+	case *infer.OptionalExpression:
+		return e.createTypeStructure(rootSchema, inputField.Expr, workflowContext)
 	}
 
 	v := reflect.ValueOf(inputField)
 	switch v.Kind() {
 	case reflect.Slice:
-		// Okay. Construct the list of schemas, and pass it into the
-
 		result := make([]any, v.Len())
 		for i := 0; i < v.Len(); i++ {
 			value := v.Index(i).Interface()
@@ -917,6 +917,8 @@ func (e *executor) prepareDependencies(
 			return e.prepareExprDependencies(s, workflowContext, currentNode, outputSchema, dag)
 		case *infer.OneOfExpression:
 			return e.prepareOneOfExprDependencies(s, workflowContext, currentNode, pathInCurrentNode, outputSchema, dag)
+		case *infer.OptionalExpression:
+			return e.prepareOptionalExprDependencies(s, workflowContext, currentNode, pathInCurrentNode, outputSchema, dag)
 		default:
 			return &ErrInvalidWorkflow{fmt.Errorf("unsupported struct/pointer type in workflow input: %T", stepData)}
 		}
@@ -1006,6 +1008,56 @@ func (e *executor) prepareExprDependencies(
 	return nil
 }
 
+func (e *executor) createGroupNode(
+	currentNode dgraph.Node[*DAGItem],
+	pathInCurrentNode []string,
+	dag dgraph.DirectedGraph[*DAGItem],
+	dependencyType dgraph.DependencyType,
+) (dgraph.Node[*DAGItem], error) {
+	groupNodeType := &DAGItem{
+		Kind: DagItemKindDependencyGroup,
+	}
+	groupedDagNode, err := dag.AddNode(
+		currentNode.ID()+"."+strings.Join(pathInCurrentNode, "."), groupNodeType)
+	if err != nil {
+		return nil, err
+	}
+	err = currentNode.ConnectDependency(groupedDagNode.ID(), dependencyType)
+	if err != nil {
+		return nil, err
+	}
+	return groupedDagNode, nil
+}
+
+func (e *executor) prepareOptionalExprDependencies(
+	expr *infer.OptionalExpression,
+	workflowContext map[string][]byte,
+	currentNode dgraph.Node[*DAGItem],
+	pathInCurrentNode []string,
+	outputSchema *schema.ScopeSchema,
+	dag dgraph.DirectedGraph[*DAGItem],
+) error {
+	var dependencyType dgraph.DependencyType
+	if expr.WaitForCompletion {
+		dependencyType = dgraph.CompletionAndDependency
+	} else {
+		dependencyType = dgraph.OptionalDependency
+	}
+
+	// The way that this will work is the current node will depend on the grouped
+	// node to isolate the optional dependencies. The current node will depend on it
+	// with either optional or completion dependencies
+	optionalDagNode, err := e.createGroupNode(currentNode, pathInCurrentNode, dag, dependencyType)
+	if err != nil {
+		return err
+	}
+
+	expr.GroupNodePath = optionalDagNode.ID()
+	expr.ParentNodePath = currentNode.ID()
+
+	return e.prepareExprDependencies(expr.Expr, workflowContext, optionalDagNode, outputSchema, dag)
+}
+
 func (e *executor) prepareOneOfExprDependencies(
 	expr *infer.OneOfExpression,
 	workflowContext map[string][]byte,
@@ -1020,25 +1072,21 @@ func (e *executor) prepareOneOfExprDependencies(
 	if len(expr.Options) == 0 {
 		return fmt.Errorf("oneof %s has no options", expr.String())
 	}
-	// In case there are multiple OneOfs, each oneof needs its own node.
-	orNodeType := &DAGItem{
-		Kind: DagItemKindOrGroup,
-	}
-	oneofDagNode, err := dag.AddNode(
-		currentNode.ID()+"."+strings.Join(pathInCurrentNode, "."), orNodeType)
-	if err != nil {
-		return err
+	groupNodeType := &DAGItem{
+		Kind: DagItemKindDependencyGroup,
 	}
-	err = currentNode.ConnectDependency(oneofDagNode.ID(), dgraph.AndDependency)
+	// In case there are multiple OneOfs, each oneof needs its own node.
+	oneofDagNode, err := e.createGroupNode(currentNode, pathInCurrentNode, dag, dgraph.AndDependency)
 	if err != nil {
 		return err
 	}
+
 	// Mark the node ID on the OneOfExpression. This mutates the expression, so make sure
 	// this is not operating on a copy of the schema for the data to be retained.
 	expr.NodePath = oneofDagNode.ID()
 	for optionID, optionData := range expr.Options {
 		optionDagNode, err := dag.AddNode(
-			oneofDagNode.ID()+"."+optionID, orNodeType)
+			oneofDagNode.ID()+"."+optionID, groupNodeType)
 		if err != nil {
 			return err
 		}
diff --git a/workflow/model.go b/workflow/model.go
index c09c500..b4a9973 100644
--- a/workflow/model.go
+++ b/workflow/model.go
@@ -170,9 +170,10 @@ const (
 	DAGItemKindStepStageOutput DAGItemKind = "stepStageOutput"
 	// DAGItemKindOutput indicates a DAG node for the workflow output.
 	DAGItemKindOutput DAGItemKind = "output"
-	// DagItemKindOrGroup indicates a DAG node used to complete a part of
-	// an input or output that needs dependencies grouped, typically for OR dependencies.
-	DagItemKindOrGroup DAGItemKind = "orGroup"
+	// DagItemKindDependencyGroup indicates a DAG node used to complete a part of
+	// an input or output that needs dependencies grouped, typically for OR dependencies
+	// or optional dependencies.
+	DagItemKindDependencyGroup DAGItemKind = "dependencyGroup"
 )
 
 // DAGItem is the internal structure of the DAG.
diff --git a/workflow/workflow.go b/workflow/workflow.go
index e1eaf1e..57f4922 100644
--- a/workflow/workflow.go
+++ b/workflow/workflow.go
@@ -521,7 +521,7 @@ func (l *loopState) notifySteps() { //nolint:gocognit
 		inputData := nodeItem.Data
 		if inputData == nil {
 			switch nodeItem.Kind {
-			case DagItemKindOrGroup:
+			case DagItemKindDependencyGroup:
 				if err := node.ResolveNode(dgraph.Resolved); err != nil {
 					panic(fmt.Errorf("error occurred while resolving workflow OR group node (%s)", err.Error()))
 				}
@@ -688,6 +688,8 @@ func (l *loopState) resolveExpressions(inputData any, dataModel any) (any, error
 		return expr.Evaluate(dataModel, l.callableFunctions, l.workflowContext)
 	case *infer.OneOfExpression:
 		return l.resolveOneOfExpression(expr, dataModel)
+	case *infer.OptionalExpression:
+		return l.resolveOptionalExpression(expr, dataModel)
 	}
 
 	v := reflect.ValueOf(inputData)
@@ -712,7 +714,9 @@ func (l *loopState) resolveExpressions(inputData any, dataModel any) (any, error
 			if err != nil {
 				return nil, fmt.Errorf("failed to resolve workflow map expressions (%w)", err)
 			}
-			result[key] = newValue
+			if newValue != nil { // In case it's an optional field.
+				result[key] = newValue
+			}
 		}
 		return result, nil
 	default:
@@ -725,6 +729,9 @@ func (l *loopState) resolveOneOfExpression(expr *infer.OneOfExpression, dataMode
 
 	// Get the node the OneOf uses to check which Or dependency resolved first (the others will either not be
 	// in the resolved list, or they will be obviated)
+	if expr.NodePath == "" {
+		return nil, fmt.Errorf("node path is empty in oneof expression %s", expr.String())
+	}
 	oneOfNode, err := l.dag.GetNodeByID(expr.NodePath)
 	if err != nil {
 		return nil, fmt.Errorf("failed to get node to resolve oneof expression (%w)", err)
@@ -777,6 +784,27 @@ func (l *loopState) resolveOneOfExpression(expr *infer.OneOfExpression, dataMode
 	return outputData, nil
 }
 
+func (l *loopState) resolveOptionalExpression(expr *infer.OptionalExpression, dataModel any) (any, error) {
+	l.logger.Debugf("Evaluating oneof expression %s...", expr.Expr.String())
+	if expr.ParentNodePath == "" {
+		return nil, fmt.Errorf("ParentNodePath is empty in resolve optional expression %s", expr.Expr.String())
+	}
+	if expr.GroupNodePath == "" {
+		return nil, fmt.Errorf("GroupNodePath is empty in resolve optional expression %s", expr.Expr.String())
+	}
+	// Check to see if the group node is resolved within the parent node
+	parentDagNode, err := l.dag.GetNodeByID(expr.ParentNodePath)
+	if err != nil {
+		return nil, fmt.Errorf("failed to get parent node to resolve optional expression (%w)", err)
+	}
+	resolvedDependencies := parentDagNode.ResolvedDependencies()
+	_, dependencyGroupResolved := resolvedDependencies[expr.GroupNodePath]
+	if !dependencyGroupResolved {
+		return nil, nil // It's nil to indicate that the optional field is not present.
+	}
+	return expr.Expr.Evaluate(dataModel, l.callableFunctions, l.workflowContext)
+}
+
 // stageChangeHandler is implementing step.StageChangeHandler.
 type stageChangeHandler struct {
 	onStageChange func(
diff --git a/workflow/workflow_test.go b/workflow/workflow_test.go
index 780a10d..16d4211 100644
--- a/workflow/workflow_test.go
+++ b/workflow/workflow_test.go
@@ -2111,6 +2111,402 @@ outputs:
     toggled_wait_output: !expr $.steps.toggled_wait.disabled.output
 `
 
+var optionalFieldGracefullyDisabledStepWorkflow = `
+version: v0.2.0
+input:
+  root: WorkflowInput
+  objects:
+    WorkflowInput:
+      id: WorkflowInput
+      properties:
+        step_enabled:
+          type:
+            type_id: bool
+steps:
+  simple_wait:
+    plugin:
+      src: "n/a"
+      deployment_type: "builtin"
+    step: wait
+    input:
+      wait_time_ms: 0
+    enabled: !expr $.input.step_enabled
+outputs:
+  workflow-success:
+    success_output: !wait-optional $.steps.simple_wait.outputs.success
+`
+
+func TestOptionalFieldGracefullyDisabledStepWorkflow(t *testing.T) {
+	// Run a workflow where the output uses the !wait-optional tag to allow
+	// the step to be disabled without breaking the output.
+	preparedWorkflow := assert.NoErrorR[workflow.ExecutableWorkflow](t)(
+		getTestImplPreparedWorkflow(t, optionalFieldGracefullyDisabledStepWorkflow),
+	)
+	outputID, outputData, err := preparedWorkflow.Execute(context.Background(), map[string]any{
+		"step_enabled": true,
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "workflow-success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"success_output": map[any]any{
+			"message": "Plugin slept for 0 ms.",
+		},
+	})
+	// Test step disabled case
+	outputID, outputData, err = preparedWorkflow.Execute(context.Background(), map[string]any{
+		"step_enabled": false,
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "workflow-success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{})
+}
+
+var optionalFieldWithFailureStepWorkflow = `
+version: v0.2.0
+input:
+  root: WorkflowInput
+  objects:
+    WorkflowInput:
+      id: WorkflowInput
+      properties:
+        fail_purposefully:
+          type:
+            type_id: bool
+steps:
+  hello_step:
+    plugin:
+      src: "n/a"
+      deployment_type: "builtin"
+    step: hello
+    input:
+      fail: !expr $.input.fail_purposefully
+  wait_step:
+    plugin:
+      src: "n/a"
+      deployment_type: "builtin"
+    step: wait
+    input:
+      wait_time_ms: 0
+outputs:
+  workflow-success:
+    hello_output: !wait-optional $.steps.hello_step.outputs.success
+    wait_output: !expr $.steps.wait_step.outputs.success
+`
+
+func TestOptionalFieldWithFailureStepWorkflow(t *testing.T) {
+	// Test a workflow where one of the steps can fail without
+	// causing a failure of the output.
+	preparedWorkflow := assert.NoErrorR[workflow.ExecutableWorkflow](t)(
+		getTestImplPreparedWorkflow(t, optionalFieldWithFailureStepWorkflow),
+	)
+	outputID, outputData, err := preparedWorkflow.Execute(context.Background(), map[string]any{
+		"fail_purposefully": false,
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "workflow-success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"wait_output": map[any]any{
+			"message": "Plugin slept for 0 ms.",
+		},
+		"hello_output": map[any]any{},
+	})
+	outputID, outputData, err = preparedWorkflow.Execute(context.Background(), map[string]any{
+		"fail_purposefully": true,
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "workflow-success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"wait_output": map[any]any{
+			"message": "Plugin slept for 0 ms.",
+		},
+	})
+}
+
+var softOptionalFieldWorkflow = `
+version: v0.2.0
+input:
+  root: WorkflowInput
+  objects:
+    WorkflowInput:
+      id: WorkflowInput
+      properties:
+        wait_1_ms:
+          type:
+            type_id: integer
+        wait_2_ms:
+          type:
+            type_id: integer
+        wait_1_enabled:
+          type:
+            type_id: bool
+        wait_2_enabled:
+          type:
+            type_id: bool
+steps:
+  wait_step_1:
+    plugin:
+      src: "n/a"
+      deployment_type: "builtin"
+    step: wait
+    input:
+      wait_time_ms: !expr $.input.wait_1_ms
+    enabled: !expr $.input.wait_1_enabled
+  wait_step_2:
+    plugin:
+      src: "n/a"
+      deployment_type: "builtin"
+    step: wait
+    input:
+      wait_time_ms: !expr $.input.wait_2_ms
+    enabled: !expr $.input.wait_2_enabled
+outputs:
+  workflow-success:
+    required_output: !expr $.steps.wait_step_1.outputs.success
+    optional_output: !soft-optional $.steps.wait_step_2.outputs.success
+`
+
+func TestSoftOptionalFieldWorkflow(t *testing.T) {
+	// Test the wait time resulting in the soft-optional not being included.
+	preparedWorkflow := assert.NoErrorR[workflow.ExecutableWorkflow](t)(
+		getTestImplPreparedWorkflow(t, softOptionalFieldWorkflow),
+	)
+	// Test case where step 1 will be ready before step 2, and will therefore not
+	// be present in the output.
+	outputID, outputData, err := preparedWorkflow.Execute(context.Background(), map[string]any{
+		"wait_1_ms":      0,
+		"wait_2_ms":      15,
+		"wait_1_enabled": true,
+		"wait_2_enabled": true,
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "workflow-success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"required_output": map[any]any{
+			"message": "Plugin slept for 0 ms.",
+		},
+	})
+	// Test case where step 1 is going to take so much longer that we can all but
+	// guarantee that step 2's output will be present before step 1 completes.
+	outputID, outputData, err = preparedWorkflow.Execute(context.Background(), map[string]any{
+		"wait_1_ms":      15,
+		"wait_2_ms":      0,
+		"wait_1_enabled": true,
+		"wait_2_enabled": true,
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "workflow-success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"required_output": map[any]any{
+			"message": "Plugin slept for 15 ms.",
+		},
+		"optional_output": map[any]any{
+			"message": "Plugin slept for 0 ms.",
+		},
+	})
+	// Test case where step 2 is just disabled, and will therefore be not present in
+	// the output due to being unresolvable.
+	outputID, outputData, err = preparedWorkflow.Execute(context.Background(), map[string]any{
+		"wait_1_ms":      5,
+		"wait_2_ms":      5,
+		"wait_1_enabled": true,
+		"wait_2_enabled": false,
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "workflow-success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"required_output": map[any]any{
+			"message": "Plugin slept for 5 ms.",
+		},
+	})
+	// Test proper failure handling of the required step. The optional value will be available,
+	// but should not be used.
+	outputID, outputData, err = preparedWorkflow.Execute(context.Background(), map[string]any{
+		"wait_1_ms":      0,
+		"wait_2_ms":      0,
+		"wait_1_enabled": false,
+		"wait_2_enabled": true,
+	})
+	assert.Error(t, err)
+	assert.Equals(t, outputID, "")
+	var typedError *workflow.ErrNoMorePossibleOutputs
+	if !errors.As(err, &typedError) {
+		t.Fatalf("incorrect error type returned: %T (%s)", err, err)
+	}
+}
+
+var forEachWithOptionalWf = `
+version: v0.2.0
+input:
+  root: RootObject
+  objects:
+    RootObject:
+      id: RootObject
+      properties:
+        step_to_run:
+          type:
+            type_id: string
+steps:
+  step_a:
+    plugin:
+      src: "n/a"
+      deployment_type: "builtin"
+    step: hello
+    input:
+      fail: !expr false
+    enabled: !expr $.input.step_to_run == "a"
+  step_b:
+    plugin:
+      src: "n/a"
+      deployment_type: "builtin"
+    step: wait
+    input:
+      wait_time_ms: 0
+    enabled: !expr $.input.step_to_run == "b"
+  subwf_step:
+    kind: foreach
+    items:
+    - input_1: !wait-optional $.steps.step_a.outputs.success
+      input_2: !wait-optional $.steps.step_b.outputs.success
+    workflow: subworkflow.yaml
+outputs:
+  success:
+    subwf_result: !expr $.steps.subwf_step.outputs
+`
+
+var forEachWithOptionalSubWf = `
+version: v0.2.0
+input:
+  root: RootObject
+  objects:
+    RootObject:
+      id: RootObject
+      properties:
+        input_1:
+          required: false
+          type:
+            type_id: object
+            id: hello-output
+            properties: {}
+        input_2:
+          required: false
+          type:
+            type_id: object
+            id: output
+            properties:
+              message:
+                type:
+                  type_id: string
+steps:
+  placeholder_step:
+    plugin:
+      src: "n/a"
+      deployment_type: "builtin"
+    step: hello
+    input:
+      fail: !expr false
+outputs:
+  success: !expr $.input
+`
+
+func TestForeachWithOptional(t *testing.T) {
+	// This test tests the optional tag `!wait-optional` being used to create an input to
+	// a subworkflow.
+	// Since the subworkflow schema must match the input, this also validates that
+	// the inferred schema is correct.
+	logConfig := log.Config{
+		Level:       log.LevelDebug,
+		Destination: log.DestinationStdout,
+	}
+	logger := log.New(
+		logConfig,
+	)
+	cfg := &config.Config{
+		Log: logConfig,
+	}
+	factories := workflowFactory{
+		config: cfg,
+	}
+	deployerRegistry := deployerregistry.New(
+		deployer.Any(testimpl.NewFactory()),
+	)
+
+	pluginProvider := assert.NoErrorR[step.Provider](t)(
+		plugin.New(logger, deployerRegistry, map[string]interface{}{
+			"builtin": map[string]any{
+				"deployer_name": "test-impl",
+				"deploy_time":   "0",
+			},
+		}),
+	)
+	stepRegistry, err := stepregistry.New(
+		pluginProvider,
+		lang.Must2(foreach.New(logger, factories.createYAMLParser, factories.createWorkflow)),
+	)
+	assert.NoError(t, err)
+
+	factories.stepRegistry = stepRegistry
+	executor := lang.Must2(workflow.NewExecutor(
+		logger,
+		cfg,
+		stepRegistry,
+		builtinfunctions.GetFunctions(),
+	))
+	wf := lang.Must2(workflow.NewYAMLConverter(stepRegistry).FromYAML([]byte(forEachWithOptionalWf)))
+	preparedWorkflow := lang.Must2(executor.Prepare(wf, map[string][]byte{
+		"subworkflow.yaml": []byte(forEachWithOptionalSubWf),
+	}))
+	outputID, outputData, err := preparedWorkflow.Execute(context.Background(), map[string]any{
+		"step_to_run": "a",
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"subwf_result": map[string]any{
+			"success": map[string]any{
+				"data": []any{
+					map[string]any{
+						"input_1": map[string]any{},
+					},
+				},
+			},
+		},
+	})
+
+	outputID, outputData, err = preparedWorkflow.Execute(context.Background(), map[string]any{
+		"step_to_run": "b",
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"subwf_result": map[string]any{
+			"success": map[string]any{
+				"data": []any{
+					map[string]any{
+						"input_2": map[string]any{
+							"message": "Plugin slept for 0 ms.",
+						},
+					},
+				},
+			},
+		},
+	})
+
+	outputID, outputData, err = preparedWorkflow.Execute(context.Background(), map[string]any{
+		"step_to_run": "non-existent",
+	})
+	assert.NoError(t, err)
+	assert.Equals(t, outputID, "success")
+	assert.Equals(t, outputData.(map[any]any), map[any]any{
+		"subwf_result": map[string]any{
+			"success": map[string]any{
+				"data": []any{
+					map[string]any{},
+				},
+			},
+		},
+	})
+}
+
 func TestDelayedDisabledStepWorkflow(t *testing.T) {
 	// Run a workflow where the step is disabled by a value that isn't available
 	// at the start of the workflow; in this case the step is disabled from
diff --git a/workflow/yaml.go b/workflow/yaml.go
index e79a99e..21b1f4e 100644
--- a/workflow/yaml.go
+++ b/workflow/yaml.go
@@ -63,13 +63,21 @@ const YamlDiscriminatorKey = "discriminator"
 // YamlOneOfTag is the yaml tag that allows the section to be interpreted as a OneOf.
 const YamlOneOfTag = "!oneof"
 
-// OrDisabledTag is the key to specify that the following code should be interpreted as a `oneof` type with
-// two possible outputs: the expr specified or the disabled output.
+// OrDisabledTag is the yaml tag to specify that the following code should be interpreted
+// as a `oneof` type with two possible outputs: the expr specified or the disabled output.
 const OrDisabledTag = "!ordisabled"
 
-func buildExpression(data yaml.Node, path []string, tag string) (expressions.Expression, error) {
+// WaitOptionalTag is the tag to specify that the field, when used in an object,
+// should be optional with a completion DAG dependency.
+const WaitOptionalTag = "!wait-optional"
+
+// SoftOptionalTag is the tag to specify that the field, when used in an object,
+// should be optional with an optional DAG dependency.
+const SoftOptionalTag = "!soft-optional"
+
+func buildExpression(data yaml.Node, path []string) (expressions.Expression, error) {
 	if data.Type() != yaml.TypeIDString {
-		return nil, fmt.Errorf("%s found on non-string node at %s", tag, strings.Join(path, " -> "))
+		return nil, fmt.Errorf("%s found on non-string node at %s", data.Tag(), strings.Join(path, " -> "))
 	}
 	expr, err := expressions.New(data.Value())
 	if err != nil {
@@ -127,8 +135,8 @@ var stepPathRegex = regexp.MustCompile(`((?:\$.)?steps\.[^.]+)(\..+)`)
 // Builds a oneof for the given path, or the step disabled output.
 // Requires this to be a valid step output. But it is flexible to support all outputs,
 // a specific output, or a field within a specific output.
-func buildResultOrDisabledExpression(data yaml.Node, path []string) (any, error) {
-	successExpr, err := buildExpression(data, path, OrDisabledTag)
+func buildResultOrDisabledExpression(data yaml.Node, path []string) (*infer.OneOfExpression, error) {
+	successExpr, err := buildExpression(data, path)
 	if err != nil {
 		return nil, err
 	}
@@ -155,14 +163,40 @@ func buildResultOrDisabledExpression(data yaml.Node, path []string) (any, error)
 	}, nil
 }
 
+func buildOptionalExpression(data yaml.Node, path []string) (*infer.OptionalExpression, error) {
+	var waitForCompletion bool
+	switch data.Tag() {
+	case SoftOptionalTag:
+		waitForCompletion = false
+	case WaitOptionalTag:
+		waitForCompletion = true
+	default:
+		return nil, fmt.Errorf(
+			"unsupported tag %q in buildOptionalExpression at %s",
+			data.Tag(),
+			strings.Join(path, " -> "),
+		)
+	}
+	expr, err := buildExpression(data, path)
+	if err != nil {
+		return nil, err
+	}
+	return &infer.OptionalExpression{
+		Expr:              expr,
+		WaitForCompletion: waitForCompletion,
+	}, nil
+}
+
 func yamlBuildExpressions(data yaml.Node, path []string) (any, error) {
 	switch data.Tag() {
 	case YamlExprTag:
-		return buildExpression(data, path, YamlExprTag)
+		return buildExpression(data, path)
 	case YamlOneOfTag:
 		return buildOneOfExpressions(data, path)
 	case OrDisabledTag:
 		return buildResultOrDisabledExpression(data, path)
+	case SoftOptionalTag, WaitOptionalTag:
+		return buildOptionalExpression(data, path)
 	}
 	switch data.Type() {
 	case yaml.TypeIDString:
diff --git a/workflow/yaml_test.go b/workflow/yaml_test.go
index 812bc1b..2db2824 100644
--- a/workflow/yaml_test.go
+++ b/workflow/yaml_test.go
@@ -107,10 +107,8 @@ func TestBuildResultOrDisabledExpression_Simple(t *testing.T) {
 	// Test without root $
 	yamlInput := []byte(`!ordisabled steps.test.outputs`)
 	input := assert.NoErrorR[yaml.Node](t)(yaml.New().Parse(yamlInput))
-	result, err := buildResultOrDisabledExpression(input, make([]string, 0))
+	oneOfResult, err := buildResultOrDisabledExpression(input, make([]string, 0))
 	assert.NoError(t, err)
-	assert.InstanceOf[*infer.OneOfExpression](t, result)
-	oneOfResult := result.(*infer.OneOfExpression)
 	assert.Equals(t, oneOfResult.Discriminator, "result")
 	assert.Equals(t, oneOfResult.Options, map[string]any{
 		"enabled":  lang.Must2(expressions.New("steps.test.outputs")),
@@ -120,10 +118,8 @@ func TestBuildResultOrDisabledExpression_Simple(t *testing.T) {
 	// Test with all outputs
 	yamlInput = []byte(`!ordisabled $.steps.test.outputs`)
 	input = assert.NoErrorR[yaml.Node](t)(yaml.New().Parse(yamlInput))
-	result, err = buildResultOrDisabledExpression(input, make([]string, 0))
+	oneOfResult, err = buildResultOrDisabledExpression(input, make([]string, 0))
 	assert.NoError(t, err)
-	assert.InstanceOf[*infer.OneOfExpression](t, result)
-	oneOfResult = result.(*infer.OneOfExpression)
 	assert.Equals(t, oneOfResult.Discriminator, "result")
 	assert.Equals(t, oneOfResult.Options, map[string]any{
 		"enabled":  lang.Must2(expressions.New("$.steps.test.outputs")),
@@ -133,10 +129,8 @@ func TestBuildResultOrDisabledExpression_Simple(t *testing.T) {
 	// Test with a specific output
 	yamlInput = []byte(`!ordisabled $.steps.test.outputs.success`)
 	input = assert.NoErrorR[yaml.Node](t)(yaml.New().Parse(yamlInput))
-	result, err = buildResultOrDisabledExpression(input, make([]string, 0))
+	oneOfResult, err = buildResultOrDisabledExpression(input, make([]string, 0))
 	assert.NoError(t, err)
-	assert.InstanceOf[*infer.OneOfExpression](t, result)
-	oneOfResult = result.(*infer.OneOfExpression)
 	assert.Equals(t, oneOfResult.Discriminator, "result")
 	assert.Equals(t, oneOfResult.Options, map[string]any{
 		"enabled":  lang.Must2(expressions.New("$.steps.test.outputs.success")),
@@ -169,7 +163,42 @@ func TestBuildResultOrDisabledExpression_InvalidPattern(t *testing.T) {
 func TestBuildExpression_WrongType(t *testing.T) {
 	yamlInput := []byte(`!expr {}`) // A map
 	input := assert.NoErrorR[yaml.Node](t)(yaml.New().Parse(yamlInput))
-	_, err := buildExpression(input, make([]string, 0), YamlExprTag)
+	_, err := buildExpression(input, make([]string, 0))
 	assert.Error(t, err)
 	assert.Contains(t, err.Error(), "found on non-string node")
 }
+
+func TestBuildWaitOptionalExpr_Simple(t *testing.T) {
+	yamlInput := []byte(`!wait-optional some_expr`)
+	input := assert.NoErrorR[yaml.Node](t)(yaml.New().Parse(yamlInput))
+	optionalResult, err := buildOptionalExpression(input, make([]string, 0))
+	assert.NoError(t, err)
+	assert.Equals(t, optionalResult.WaitForCompletion, true)
+	assert.Equals(t, optionalResult.Expr, lang.Must2(expressions.New("some_expr")))
+}
+
+func TestBuildSoftOptionalExpr_Simple(t *testing.T) {
+	yamlInput := []byte(`!soft-optional some_expr`)
+	input := assert.NoErrorR[yaml.Node](t)(yaml.New().Parse(yamlInput))
+	optionalResult, err := buildOptionalExpression(input, make([]string, 0))
+	assert.NoError(t, err)
+	assert.Equals(t, optionalResult.WaitForCompletion, false)
+	assert.Equals(t, optionalResult.Expr, lang.Must2(expressions.New("some_expr")))
+}
+
+func TestBuildWaitOptionalExpr_InvalidExpr(t *testing.T) {
+	yamlInput := []byte(`!wait-optional ....`)
+	input := assert.NoErrorR[yaml.Node](t)(yaml.New().Parse(yamlInput))
+	_, err := buildOptionalExpression(input, make([]string, 0))
+	assert.Error(t, err)
+	assert.Contains(t, err.Error(), "placed in invalid configuration")
+}
+
+func TestBuildWaitOptionalExpr_InvalidTag(t *testing.T) {
+	// It should never get there outside the unit test.
+	yamlInput := []byte(`!invalid some_expr`)
+	input := assert.NoErrorR[yaml.Node](t)(yaml.New().Parse(yamlInput))
+	_, err := buildOptionalExpression(input, make([]string, 0))
+	assert.Error(t, err)
+	assert.Contains(t, err.Error(), "unsupported tag")
+}