--- layout: docs title: "Unconnected Wires" section: "chisel3" --- The Invalidate API [(#645)](https://github.com/freechipsproject/chisel3/pull/645) adds support to chisel for reporting unconnected wires as errors. Prior to this pull request, chisel automatically generated a firrtl `is invalid` for `Module IO()`, and each `Wire()` definition. This made it difficult to detect cases where output signals were never driven. Chisel now supports a `DontCare` element, which may be connected to an output signal, indicating that that signal is intentionally not driven. Unless a signal is driven by hardware or connected to a `DontCare`, Firrtl will complain with a "not fully initialized" error. ### API Output signals may be connected to DontCare, generating a `is invalid` when the corresponding firrtl is emitted. ```scala io.out.debug := true.B io.out.debugOption := DontCare ``` This indicates that the signal `io.out.debugOption` is intentionally not driven and firrtl should not issue a "not fully initialized" error for this signal. This can be applied to aggregates as well as individual signals: ```scala { ... val nElements = 5 val io = IO(new Bundle { val outs = Output(Vec(nElements, Bool())) }) io.outs <> DontCare ... } class TrivialInterface extends Bundle { val in = Input(Bool()) val out = Output(Bool()) } { ... val io = IO(new TrivialInterface) io <> DontCare ... } ``` This feature is controlled by `CompileOptions.explicitInvalidate` and is set to `false` in `NotStrict` (Chisel2 compatibility mode), and `true` in `Strict` mode. You can selectively enable this for Chisel2 compatibility mode by providing your own explicit `compileOptions`, either for a group of Modules (via inheritance): ```scala abstract class ExplicitInvalidateModule extends Module()(chisel3.core.ExplicitCompileOptions.NotStrict.copy(explicitInvalidate = true)) ``` or on a per-Module basis: ```scala class MyModule extends Module { override val compileOptions = chisel3.core.ExplicitCompileOptions.NotStrict.copy(explicitInvalidate = true) ... } ``` Or conversely, disable this stricter checking (which is now the default in pure chisel3): ```scala abstract class ImplicitInvalidateModule extends Module()(chisel3.core.ExplicitCompileOptions.Strict.copy(explicitInvalidate = false)) ``` or on a per-Module basis: ```scala class MyModule extends Module { override val compileOptions = chisel3.core.ExplicitCompileOptions.Strict.copy(explicitInvalidate = false) ... } ``` Please see the corresponding [API tests](https://github.com/freechipsproject/chisel3/blob/master/src/test/scala/chiselTests/InvalidateAPISpec.scala) for examples. ### Determining the unconnected element I have an interface with 42 wires. Which one of them is unconnected? The firrtl error message should contain something like: ```bash firrtl.passes.CheckInitialization$RefNotInitializedException: @[:@6.4] : [module Router] Reference io is not fully initialized. @[Decoupled.scala 38:19:@48.12] : node _GEN_23 = mux(and(UInt<1>("h1"), eq(UInt<2>("h3"), _T_84)), _GEN_2, VOID) @[Decoupled.scala 38:19:@48.12] @[Router.scala 78:30:@44.10] : node _GEN_36 = mux(_GEN_0.ready, _GEN_23, VOID) @[Router.scala 78:30:@44.10] @[Router.scala 75:26:@39.8] : node _GEN_54 = mux(io.in.valid, _GEN_36, VOID) @[Router.scala 75:26:@39.8] @[Router.scala 70:50:@27.6] : node _GEN_76 = mux(io.load_routing_table_request.valid, VOID, _GEN_54) @[Router.scala 70:50:@27.6] @[Router.scala 65:85:@19.4] : node _GEN_102 = mux(_T_62, VOID, _GEN_76) @[Router.scala 65:85:@19.4] : io.outs[3].bits.body <= _GEN_102 ``` The first line is the initial error report. Successive lines, indented and beginning with source line information indicate connections involving the problematic signal. Unfortunately, if these are `when` conditions involving muxes, they may be difficult to decipher. The last line of the group, indented and beginning with a `:` should indicate the uninitialized signal component. This example (from the [Router tutorial](https://github.com/ucb-bar/chisel-tutorial/blob/release/src/main/scala/examples/Router.scala)) was produced when the output queue bits were not initialized. The old code was: ```scala io.outs.foreach { out => out.noenq() } ``` which initialized the queue's `valid` bit, but did not initialize the actual output values. The fix was: ```scala io.outs.foreach { out => out.bits := 0.U.asTypeOf(out.bits) out.noenq() } ```