A data flow architecture or language performs a computation when all the operands are available. Data flow is one kind of data driven architecture, the other is demand driven. It is a technique for specifying parallel computation at a fine-grain level, usually in the form of two-dimensional graphs in which instructions that are available for concurrent execution are written alongside each other while those that must be executed in sequence are written one under the other. Data dependencies between instructions are indicated by directed arcs. Instructions do not reference memory since the data dependence arcs allow data to be transmitted directly from the producing instruction to the consuming one.
Data flow schemes differ chiefly in the way that they handle re-entrant code. Static schemes disallow it, dynamic schemes use either "code copying" or "tagging" at every point of reentry.
An example of a data flow architecture is MIT's VAL machine.
This December, by contrast, the data flow for the final weeks of the year has been relentlessly upbeat.
The data flow would seem to support a decent—possibly good—holiday shopping season.
In a May interview with a Swiss newspaper, Schloter cited the 24/7 data flow as a significant stress factor.
It is evident, therefore, that the historical order in which data flow is not contained bodily in any one of them.