Pulsed laser diode driver

What is claimed is: 1. A method for pulsing a laser diode, comprising: accumulating pulse charge in a charge storing element during a first interval; pre-charging one or more inductive elements between the charge storing element up to a terminal of the laser diode, the one or more inductive elements including connection inductance at the terminal of the laser diode, by closing a first switch directly connected to the terminal of the laser diode to conduct current through the one or more inductive elements and the first switch and keeping a second switch in series with the laser diode open during a second interval; and firing the laser diode, after pre-charging the one or more inductive elements, by closing the second switch during a third interval and opening the first switch to flow current through the laser diode and the second switch during a fourth interval. 2. The method of claim 1 , wherein the connection inductance at the terminal of the laser diode is a bondwire inductance. 3. The method of claim 1 , wherein the terminal of the laser diode is an anode of the laser diode. 4. The method of claim 1 , wherein closing the second switch selects and fires the laser diode from a plurality of laser diodes having a common cathode configuration or common anode configuration. 5. The method of claim 1 , wherein: closing the first switch completes a first conductive path for the current to flow through the first switch and the one or more inductive elements; and opening the first switch and closing the second switch opens the first conductive path to allow the current to flow through a second circuit path having the laser diode. 6. The method of claim 5 , wherein a speed of the current flowing through the laser diode to fire the laser diode is not limited by the one or more inductive elements. 7. The method of claim 1 , further comprising: receiving a logic input signal; and generating voltages for gate drivers to open or close the first switch and the second switch during the first, second, third, and fourth intervals in response to the logic input signal having a specified logic level. 8. The method of claim 1 , wherein the one or more inductive elements further include inductances between the charge storing element and bondwire or conductor connected to the terminal of the laser diode. 9. A laser diode driver circuit, comprising: a capacitor for accumulating pulse charge; a first circuit path comprising one or more inductive elements between the capacitor up to a terminal of a laser diode and one or more first switches, wherein one of the one or more first switches is directly connected to the terminal of the laser diode; and a second circuit path comprising the laser diode and one or more second switches; wherein the one or more first switches being closed, while the one or more second switches are open, pre-charges current in the one or more inductive elements using the pulse charge through the first circuit path prior to flowing the current through the second circuit path to pulse the laser diode. 10. The laser diode driver circuit of claim 9 , further comprising: a switch timing controller for generating control signals to the one or more first switches and the one or more second switches to implement predefined states of the one or more first switches and the one or more second switches during different intervals. 11. The laser diode driver circuit of claim 9 , further comprising: a third switch to select the capacitor from a plurality of capacitors corresponding to the laser diode and one or more further laser diodes for charging the selected capacitor to a predetermined supply voltage for the laser diode. 12. The laser diode driver circuit of claim 9 , further comprising: a third circuit path in parallel with the second circuit path having a further laser diode and one or more third switches; wherein predefined states of the one or more second switches and the one or more third switches selects one of the second circuit path and the third circuit path to flow the current. 13. The laser diode driver circuit of claim 12 , wherein the laser diode and the further laser diode are connected in a common cathode configuration or in a common anode configuration. 14. The laser diode driver circuit of claim 9 , wherein at least part of the first circuit path and at least part of the second circuit path are parallel to each other. 15. The laser diode driver circuit of claim 9 , wherein the one or more inductive elements are in both the first circuit path and the second circuit path. 16. The laser diode driver circuit of claim 9 , wherein the one or more inductive elements include inductance of a bondwire or conductor connected to the terminal of the laser diode. 17. The laser diode driver circuit of claim 9 , wherein the one of the one or more first switches directly connected to the terminal of the laser diode opens and at least one of the one or more second switches closes, after pre-charging current in the one or more inductive elements, to flow current through the second circuit path. 18. The laser diode driver circuit of claim 9 , wherein a speed of the current flowing through the second circuit path to pulse the laser diode is not limited by the one or more inductive elements. 19. The laser diode driver circuit of claim 9 , wherein a speed of the current flowing through the second circuit path to pulse the laser diode is not limited by a turn-on time of one of the one or more second switches. 20. The laser diode driver circuit of claim 9 , wherein a speed of the current flowing through the second circuit path to pulse the laser diode depends on a speed of resistance rising as the one of the one or more first switches directly connected to the terminal of the laser diode opens. 21. An apparatus for pulsing a laser diode, comprising: one or more first switches in a first circuit path, wherein one of the one or more first switches is directly connected to a terminal of a laser diode; a second switch in series with the laser diode in a second circuit path; and a switch timing controller for controlling the one or more first switches and the second switch during different intervals; wherein the switch timing controller closes the one or more first switches and opens the second switch to pre-charge energy in one or more inductive elements in the first circuit path, the one or more inductive elements including connection inductance at the terminal of the laser diode, and subsequently closes the second switch and opens at least one of the one or more first switches to direct the pre-charged energy to the second circuit path having the laser diode to pulse the laser diode. 22. The apparatus of claim 21 , wherein the second switch is closed at the same time when the at least one of the one or more first switches is opened. 23. The apparatus of claim 21 , wherein the second switch is closed after the at least one of the one or more first switches is opened. 24. The apparatus of claim 21 , further comprising: further switches, in series with corresponding further laser diodes, which remain open when the second switch closes to pulse only the laser diode and not the further laser diodes; wherein the laser diode and one or more further laser diodes are in a common cathode or anode configuration. 25. The apparatus of claim 21 , wherein the one or more inductive elements in the first circuit path includes all