Superconducting clock conditioning system

What is claimed is: 1. A superconducting clock conditioning system comprising a plurality of inductive stages, each of the plurality of inductive stages comprising an inductive signal path that comprises at least one inductor and a Josephson junction, wherein the superconducting clock conditioning system is configured to receive an input AC clock signal and to output a conditioned AC clock signal having an approximately square-wave characteristic and having a peak amplitude that is less than a peak amplitude of the input AC clock signal. 2. The system of claim 1 , wherein the inductive signal path comprises a first inductor and a second inductor, wherein the first inductor interconnects the second inductor and the Josephson junction. 3. The system of claim 2 , wherein the second inductor of one of the plurality of inductive stages is connected to the first inductor and the Josephson junction of a next one of the plurality of inductive stages. 4. The system of claim 3 , wherein the superconducting clock conditioning system is arranged as a ladder structure wherein the first inductor of each of the plurality of inductive stages is arranged as a rung of the ladder structure and the second inductor of each of the plurality of inductive stages is arranged as a first rail of the ladder structure opposite the Josephson junction arranged as a second rail of the ladder structure. 5. The system of claim 4 , wherein the first and second rail alternate sides of the ladder structure with respect to consecutive inductive stages of the plurality of inductive stages. 6. The system of claim 2 , wherein the second inductor has an inductance value that is twice an inductance value as the first inductor. 7. The system of claim 2 , wherein the inductance values of the first and second inductors and the critical current of the Josephson junction of each of the plurality of inductive stages is selected to set the peak amplitude and provide a flatness of the approximately square-wave characteristic of the conditioned AC clock signal. 8. The system of claim 1 , wherein the input AC clock signal has an AC amplitude that is greater than approximately 3*Φ 0 . 9. The system of claim 7 , wherein the input AC clock signal has a DC amplitude that is greater than approximately 0.25*Φ 0 . 10. A superconducting circuit comprising the superconducting clock conditioning system of claim 1 , the superconducting circuit further comprising a superconducting transmission line circuit, and wherein the conditioned AC clock signal is provided as an input to the superconducting transmission line circuit to provide a bias to at least one Josephson junction associated with the superconducting transmission line circuit. 11. A superconducting clock conditioning system comprising a plurality of inductive stages arranged as a ladder structure, each of the plurality of inductive stages comprising: a first inductor corresponding to a rung of the ladder structure; a second inductor connected to the first inductor and corresponding to a first rail of the ladder structure; and a Josephson junction connected to the first inductor and corresponding to a second rail of the ladder structure, such that the first and second rails of the ladder structure alternate sides of the ladder structure with respect to consecutive inductive stages of the plurality of inductive stages, wherein the superconducting clock conditioning system is configured to receive an input AC clock signal that propagates through each of the plurality of inductive stages and to output a conditioned AC clock signal. 12. The system of claim 11 , wherein the conditioned AC clock signal comprises an approximately square-wave characteristic and has a peak amplitude that is less than a peak amplitude of the input AC clock signal. 13. The system of claim 11 , wherein the second inductor of one of the plurality of inductive stages is connected to the first inductor and the Josephson junction of a next one of the plurality of inductive stages. 14. The system of claim 11 , wherein the second inductor has an inductance value that is twice an inductance value as the first inductor. 15. The system of claim 11 , wherein the inductance values of the first and second inductors and the critical current of the Josephson junction of each of the plurality of inductive stages is selected to set the peak amplitude and provide a flatness of the approximately square-wave characteristic of the conditioned AC clock signal. 16. A superconducting circuit comprising: a superconducting transmission line circuit comprising at least one Josephson junction; and a superconducting clock conditioning system comprising a plurality of inductive stages, each of the plurality of inductive stages comprising an inductive signal path that comprises at least one inductor and a Josephson junction, wherein the superconducting clock conditioning system is configured to receive an input AC clock signal and to provide a conditioned AC clock signal to the superconducting transmission line circuit to provide a bias to the at least one Josephson junction associated with the superconducting transmission line circuit, the conditioned AC clock signal having an approximately square-wave characteristic and having a peak amplitude that is less than a peak amplitude of the input AC clock signal. 17. The system of claim 16 , wherein the inductive signal path comprises a first inductor and a second inductor, wherein the first inductor interconnects the second inductor and the Josephson junction. 18. The system of claim 17 , wherein the second inductor has an inductance value that is twice an inductance value as the first inductor. 19. The system of claim 17 , wherein the inductance values of the first and second inductors and the critical current of the Josephson junction of each of the plurality of inductive stages is selected to set the peak amplitude and provide a flatness of the approximately square-wave characteristic of the conditioned AC clock signal. 20. The system of claim 17 , wherein the input AC clock signal has an AC amplitude that is greater than approximately 3*Φ 0 , wherein the input AC clock signal has a DC amplitude that is greater than approximately 0.25*Φ 0 .