Molten solder injection head with vacuum filter and differential gauge system

What is claimed is: 1. An injection head, comprising: a reservoir; an injection port on a bottom of the injection head connected to the reservoir; a vacuum port adjacent to the injection port on the bottom of the injection head connected to a vacuum source, wherein the vacuum port is offset from the injection port such that the injection head has straight vertical sidewalls exposed on opposite sides of the reservoir at an exterior of the injection head; a differential vacuum gauge connected to the vacuum port and to the vacuum source; multiple heaters arranged side-by-side one another on the exterior of the injection head along the straight vertical sidewalls on the opposite sides of the reservoir; a filter disposed between the injection port and the vacuum source at a workpiece surface, the filter comprising a heat-resistant material with a porous microstructure that allows air flow but prevents molten solder from flowing therethrough, wherein the filter is disposed on the bottom of the injection head next to the injection port such that the vacuum port is adjacent to a top surface of the filter and the injection port is adjacent to a side of the filter that is perpendicular to the top surface of the filter; a first material, which is conformable, disposed on the bottom of the injection head; a second material, which reduces friction as the injection head is moved over the workpiece surface, disposed on the first material, wherein the first material and the second material have a same outer footprint as the bottom of the injection head and surround both the injection port and the filter to provide a bottommost surface of the injection head that is flat, with a portion of the first material and the second material separating the injection port from the filter along the bottommost surface of the injection head, and wherein the filter is in direct contact with the first material and the second material and separates the vacuum port from the first material and the second material; and a computer-based monitoring system having a processor device, connected to a memory, and a user interface, wherein the computer-based monitoring system is configured to display on the user interface a current vacuum pressure from the differential vacuum gauge along with feature fill properties that specify a percent that workpiece features are filled with solder at different vacuum strengths. 2. The injection head of claim 1 , wherein the reservoir comprises the molten solder. 3. The injection head of claim 1 , wherein the filter covers the vacuum port. 4. The injection head of claim 3 , wherein vacuum port has a width W1 and the filter has a width W2, wherein W2>W1. 5. The injection head of claim 1 , wherein the filter is selected from the group consisting of: a ceramic filter, a polymer filter, a glass filter, and a metal filter. 6. The injection head of claim 1 , wherein the injection port and the vacuum port comprise parallel rectangular slots along the bottom of the injection head. 7. The injection head of claim 1 , wherein the filter is coplanar with the injection port along the bottom of the injection head. 8. The injection head of claim 1 , wherein the injection port has an inverted triangular shape at the bottom of the injection head. 9. The injection head of claim 1 , wherein a surface of the filter is coplanar with a surface of the second material to provide the bottommost surface of the injection head that is flat. 10. The injection head of claim 1 , wherein the heat-resistant material of the filter comprises a porous copper block having a pore size of from about 10 micrometers to about 50 micrometers. 11. The injection head of claim 1 , wherein the heat-resistant material of the filter comprises interwoven glass or ceramic fibers. 12. The injection head of claim 1 , wherein the top surface of the filter is in contact with the bottom of the injection head to either side of the vacuum port with the filter covering the vacuum port, wherein the filter has a thickness that is equivalent to a combined thickness of the first material and the second material such that a bottom surface of the filter is coplanar with a bottom surface of the second material and whereby, with the filter covering the vacuum port, the first material and the second material are absent from an area adjacent to the vacuum port, and wherein the injection port has an inverted triangular shape in only the first material and the second material adjacent to the filter. 13. The injection head of claim 1 , wherein the injection port and the vacuum port are present in a same housing of the injection head with the injection port and the vacuum port both facing a same side of the workpiece surface, and wherein the filter extends laterally between the injection port and the vacuum port along the workpiece surface. 14. The injection head of claim 1 , wherein the computer-based monitoring system is configured to compare the current vacuum pressure with historical data comprising historical injection head pressure data and historical solder fill data, and generate an alert whenever the current vacuum pressure is out of range. 15. The injection head of claim 14 , wherein the computer-based monitoring system is configured to display the historical data on the user interface.