Cell search procedure frame format

The invention claimed is: 1. A method of synchronizing a wireless device with a network node, the method comprising: receiving, at the wireless device, a radio subframe transmitted from the network node, the radio subframe comprising: a first Primary Synchronization Signal (PSS) associated with a first Orthogonal Frequency Division Multiplexing (OFDM) symbol and a first plurality of subcarriers, the first PSS paired with a first Secondary Synchronization Signal (SSS) associated with a second OFDM symbol and the first plurality of subcarriers; and a second PSS associated with the first OFDM symbol and a second plurality of subcarriers, the second PSS paired with a second SSS associated with the second OFDM symbol and the second plurality of subcarriers; inspecting the first plurality of subcarriers to detect the first PSS and the first SSS; inspecting the second plurality of subcarriers to detect the second PSS and the second SSS; and upon detecting at least one of the first PSS and the first SSS or the second PSS and the second SSS, determining system information associated with the network node based on the detected at least one PSS and the detected at least one SSS. 2. The method of claim 1 , wherein the first and second OFDM symbols do not include OFDM symbols reserved for Physical Downlink Control Channel (PDCCH). 3. The method of claim 1 , wherein the first and second plurality of subcarriers of the first and second OFDM symbols do not include time-frequency resource elements that include Cell Reference Signals (CRS). 4. The method of claim 1 , wherein a CRS time-frequency resource element punctures at least one of the first PSS, the second PSS, the first SSS, and the second SSS. 5. The method of claim 1 , further comprising: upon detecting the first PSS and the first SSS and the second PSS and the second SSS: accumulating the first PSS and the second PSS and the first SSS and the second SSS; and determining system information associated with the network node based on the accumulated first PSS and second PSS and the accumulated first SSS and second SSS. 6. The method of claim 1 , wherein: the radio subframe comprises subcarriers centered around a direct current (DC) subcarrier; the first plurality of subcarriers comprise a plurality of subcarriers adjacent to and above the DC subcarrier; and the second plurality of subcarriers comprises a plurality of subcarriers adjacent to and below the DC subcarrier. 7. The method of claim 1 , the radio subframe further comprising: a third PSS associated with the first OFDM symbol and a third plurality of subcarriers, the third PSS paired with a third SSS associated with the second OFDM symbol and the third plurality of subcarriers; and a fourth PSS associated with the first OFDM symbol and a fourth plurality of subcarriers, the fourth PSS paired with a fourth SSS associated with the second OFDM symbol and the fourth plurality of subcarriers; and the method further comprising: inspecting the third plurality of subcarriers to detect the third PSS and the third SSS; inspecting the fourth plurality of subcarriers to detect the fourth PSS and the fourth SSS; and upon detecting at least one of the third PSS and the third SSS or the fourth PSS and the fourth SSS, determining system information associated with the network node based on the detected at least one PSS and the detected at least one SSS. 8. A method of transmitting synchronization signals in a wireless network, the method comprising: generating a first Primary Synchronization Signal (PSS) and a second PSS; generating a first Secondary Synchronization Signal (SSS) and a second SSS; mapping the first PSS, first SSS, second PSS, and second SSS to a radio subframe, wherein: the first PSS is associated with a first Orthogonal Frequency Division Multiplexing (OFDM) symbol and a first plurality of subcarriers, the first PSS paired with the first SSS associated with a second OFDM symbol and the first plurality of subcarriers; the second PSS is associated with the first OFDM symbol and a second plurality of subcarriers, the second PSS paired with the second SSS associated with the second OFDM symbol and the second plurality of subcarriers; and transmitting the radio subframe. 9. The method of claim 8 , further comprising transmitting the first PSS and the first SSS in a first direction and the second PSS and the second SSS in a second direction. 10. The method of claim 8 , wherein: the radio subframe comprises subcarriers centered around a direct current (DC) subcarrier; the first plurality of subcarriers comprise a plurality of subcarriers located adjacent to and above the DC subcarrier; and the second plurality of subcarriers comprises a plurality of subcarriers located adjacent to and below the DC subcarrier. 11. A wireless device comprising a processor operable to: receive a radio subframe transmitted from a network node, the radio subframe comprising: a first Primary Synchronization Signal (PSS) associated with a first Orthogonal Frequency Division Multiplexing (OFDM) symbol and a first plurality of subcarriers, the first PSS paired with a first Secondary Synchronization Signal (SSS) associated with a second OFDM symbol and the first plurality of subcarriers; and a second PSS associated with the first OFDM symbol and a second plurality of subcarriers, the second PSS paired with a second SSS associated with the second OFDM symbol and the second plurality of subcarriers; inspect the first plurality of subcarriers to detect the first PSS and the first SSS; inspect the second plurality of subcarriers to detect the second PSS and the second SSS; and upon detecting at least one of the first PSS and the first SSS or the second PSS and the second SSS, determine system information associated with the network node based on the detected at least one PSS and the detected at least one SSS. 12. The wireless device of claim 11 , wherein a CRS time-frequency resource element punctures at least one of the first PSS, the second PSS, the first SSS, and the second SSS. 13. The wireless device of claim 11 , wherein the first PSS and the first SSS are associated with adjacent OFDM symbols. 14. The wireless device of claim 11 , wherein the first PSS is transmitted before the first SSS. 15. The wireless device of claim 11 , the processor further operable to: upon detecting the first PSS and the first SSS and the second PSS and the second SSS: accumulate the first PSS and the second PSS and the first SSS and the second SSS; and determine system information associated with the network node based on the accumulated first PSS and second PSS and the accumulated first SSS and second SSS. 16. The wireless device of claim 11 , wherein: the radio subframe comprises subcarriers centered around a direct current (DC) subcarrier; the first plurality of subcarriers comprise a plurality of subcarriers adjacent to and above the DC subcarrier; and the second plurality of subcarriers comprises a plurality of subcarriers adjacent to and below the DC subcarrier. 17. The wireless device of claim 11 , the radio subframe further comprising: a third PSS associated with the first OFDM symbol and a third plurality of subcarriers, the third PSS paired with a third SSS associated with the second OFDM symbol and the third plurality of subcarriers; and a fourth PSS associated with the first OFDM symbol and a fourth plurality of subcarriers, the fourth PSS paired with a fourth SSS associated with the second OFDM symbol and the fourth plurality of subcarriers; and the processor f