Downhole tools having controlled degradation and method

What is claimed is: 1. A downhole assembly comprising: a matrix material; and, a unit in contact with the matrix material and embedded in the matrix material, the unit including: a core comprising an energetic material configured to generate energy upon activation to facilitate degradation of the matrix material; an activator disposed in direct contact with the core, the activator including a triggering system having an igniter and a pre-set timer connected in an electrical circuit; and, at least one layer disposed on the core; wherein the igniter is inactive in an open condition of the electrical circuit, and, after a pre-set time period, the pre-set timer closes the electrical circuit and the igniter is activated. 2. The downhole assembly of claim 1 , wherein the matrix material and the unit are packaged together in a self-contained downhole tool. 3. The downhole assembly of claim 1 , wherein the electrical circuit further includes a battery, the battery arranged to provide electric current to set off the igniter in a closed condition of the circuit. 4. The downhole assembly of claim 3 , wherein the timer includes a battery separate from the battery arranged to provide electric current to set off the igniter. 5. The downhole assembly of claim 1 , wherein the matrix material is included in at least one component of a frac plug or in a flapper. 6. The downhole assembly of claim 1 , further comprising a plurality of the units in contact with the matrix material within a downhole tool. 7. The downhole assembly of claim 1 , wherein the matrix material has a cellular nanomatrix, a plurality of dispersed particles dispersed in the cellular nanomatrix, and a solid-state bond layer extending through the cellular nanomatrix between the dispersed particles. 8. The downhole assembly of claim 1 , wherein the unit is a multi-layered unit and the at least one layer includes a support layer disposed on the core; and a protective layer disposed on the support layer, wherein the support layer and the protective layer each independently comprises a polymeric material, a metallic material, or a combination comprising at least one of the foregoing, provided that the support layer includes a different material from the protective layer. 9. The downhole assembly of claim 8 , wherein the support layer comprises the metallic material; and the protective layer comprises the polymeric material. 10. The downhole assembly of claim 1 , further comprising at least one of at least one stress concentration location at the unit and a pre-crack around the unit in the matrix material. 11. The downhole assembly of claim 1 , wherein the energetic material comprises a thermite, a thermate, a solid propellant fuel, or a combination comprising at least one of the foregoing. 12. The downhole assembly of claim 1 , wherein the at least one layer separates the matrix material from the unit. 13. The downhole assembly of claim 1 , wherein the activator is disposed within the core. 14. A method of controllably removing a downhole tool, the method comprising: setting the timer of the downhole assembly of claim 1 for a first time period at a surface location; disposing the downhole assembly in a downhole environment; completing a downhole operation using the downhole tool within a second time period less than the first time period, the downhole tool formed at least partially of the matrix material; closing the electrical circuit upon completion of the first time period to activate the igniter; and activating the energetic material by the igniter and facilitating degradation of the matrix material of the downhole tool when the energetic material is activated. 15. A method of controllably removing a downhole article of a downhole assembly, the method comprising: setting a timer of the downhole article for a first time period, the downhole article including a degradable-on-demand material having a matrix material and a unit in contact with the matrix material and embedded in the matrix material, the unit including a core formed of an energetic material configured to generate energy upon activation to facilitate degradation of the downhole tool, a triggering system in direct contact with the core, and at least one layer on the core, the energetic material configured to generate energy upon activation to facilitate the degradation of the downhole article; disposing the downhole assembly in a downhole environment; performing a downhole operation using the downhole article during a second time period shorter than the first time period; activating the energetic material at the end of the first time period using an igniter of the triggering system; and facilitating degradation of the matrix material of the downhole article when the energetic material is activated. 16. The method of claim 15 , wherein the triggering system includes an electrical circuit that further includes the igniter and a battery, and at the end of the first time period, the timer closes the electrical circuit and the battery provides electric current to activate the igniter. 17. The method of claim 15 , wherein the triggering system is disposed within the core. 18. A downhole assembly comprising: a tubing string having a flowbore; and, a fluid loss control flapper pivotally connected to the tubing string at a hinge, the flapper formed of a degradable-on-demand material including: a matrix material; and, a unit in contact with the matrix material and embedded within the matrix material, the unit including: a core comprising an energetic material configured to generate energy upon activation to facilitate degradation of the downhole tool; and, an activator disposed in direct contact with the core, the activator including a triggering system having an igniter and a pre-set timer connected in an electrical circuit; wherein the igniter is inactive in an open condition of the electrical circuit, and, after a pre-set time period, the pre-set timer closes the electrical circuit and the igniter is activated. 19. The downhole assembly of claim 18 , further comprising at least one layer disposed on the core, the at least one layer separating the matrix material from the core. 20. The downhole assembly of claim 18 , wherein the activator is disposed within the core, and the unit is disposed within the flapper. 21. A frac plug comprising: at least one component formed of a degradable-on-demand material including: a matrix material; and, a unit in contact with the matrix material and embedded within the matrix material, the unit including: a core comprising an energetic material configured to generate energy upon activation to facilitate degradation of the downhole tool; and, an activator disposed in direct contact with the core, the activator including a triggering system having an igniter and a pre-set timer connected in an electrical circuit; wherein the igniter is inactive in an open condition of the electrical circuit, and, after a pre-set time period, the pre-set timer closes the electrical circuit and the igniter is activated. 22. The frac plug of claim 21 , wherein the at least one component is at least one first component, and further comprising at least one second component of the frac plug formed of the matrix material, the at least one second component not including the unit, and the at least one second component in contact with the at least one first component.