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A window assembly may include a vacuum insulated glass unit and a frame assembly. The vacuum insulated glass unit may include first and second glass substrates defining a space therebetween that is at a pressure lower than atmospheric pressure. One of the first and second glass substrates may includ

A window assembly may include a vacuum insulated glass unit and a frame assembly. The vacuum insulated glass unit may include first and second glass substrates defining a space therebetween that is at a pressure lower than atmospheric pressure. One of the first and second glass substrates may include a vacuum port extending outward therefrom. The vacuum port may define a passage in communication with the space. The frame assembly supports the glass unit and may include a base member and a glazing member. The base member and the glazing member cooperate to define a slot in which an edge portion of the glass unit is received. The glazing member may include a cavity receiving the vacuum port.

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1. A window assembly comprising: a vacuum insulated glass unit including first and second glass substrates defining a space therebetween that is at a pressure lower than atmospheric pressure, one of the first and second glass substrates including a vacuum port, the vacuum port defining a passage ext

1. A window assembly comprising: a vacuum insulated glass unit including first and second glass substrates defining a space therebetween that is at a pressure lower than atmospheric pressure, one of the first and second glass substrates including a vacuum port, the vacuum port defining a passage extending through one of the first and second glass substrates in communication with the space; anda frame assembly supporting the vacuum insulated glass unit and including a base member and a glazing member, the base member and the glazing member cooperating to define a slot in which an edge portion of the vacuum insulated glass unit is received, wherein one of the base member or the glazing member includes a cavity receiving the vacuum port. 2. The window assembly of claim 1, wherein the glazing member includes a tab that snaps into engagement with the base member. 3. The window assembly of claim 1, wherein the base member includes embedded reinforcement members. 4. The window assembly of claim 1, wherein the glazing member structurally supports the vacuum insulated glass unit. 5. The window assembly of claim 1, wherein the cavity that receives the vacuum port is filled with an insulative material. 6. The window assembly of claim 1, wherein at least one of the base member and the glazing member comprises vinyl having embedded additives that reduce thermal conductivity thereof. 7. The window assembly of claim 1, wherein the edge portion of the vacuum insulated glass unit is inserted into the slot to a bite depth of greater than or equal to 1.25 inches. 8. The window assembly of claim 1, wherein the glazing member bears at least a portion of a load of the vacuum insulated glass unit. 9. The window assembly of claim 8, wherein the glazing member and the base member cooperate to bear the load of the vacuum insulated glass unit. 10. A window assembly comprising: a plurality of vacuum insulated glass units each including first and second glass substrates defining a space therebetween that is at a pressure lower than atmospheric pressure, one of the first and second glass substrates including a vacuum port extending outward therefrom, the vacuum port defining a passage extending through one of the first and second glass substrates and in communication with the space; anda frame assembly supporting the vacuum insulated glass units and including a base member and a glazing member, the base member and the glazing member cooperating to define a first slot in which a portion of a first one of the vacuum insulated glass units is received, one of the base member or the glazing member including a cavity receiving the vacuum port of the first one of the vacuum insulated glass units, the base member defining a second slot receiving a portion of a second one of the vacuum insulated glass units. 11. The window assembly of claim 10, wherein the glazing member includes a tab that snaps into engagement with the base member. 12. The window assembly of claim 10, wherein the base member includes embedded reinforcement members. 13. The window assembly of claim 10, wherein the glazing member and the base member defining a plurality of pockets that reduce thermal conductivity through the frame assembly. 14. The window assembly of claim 13, wherein at least one of the pockets is filled with air. 15. The window assembly of claim 13, wherein at least one of the pockets is filled with foam. 16. The window assembly of claim 13, wherein the base member includes a recess adjacent the first slot that receives a portion of the first one of the vacuum insulated glass units when the first one of the vacuum insulated glass units is in a distorted condition. 17. The window assembly of claim 16, wherein the recess includes an insulative barrier received therein to absorb energy associated with distortion of the first one of the vacuum insulated glass units. 18. The window assembly of claim 10, wherein the glazing member structurally supports the first one of the vacuum insulated glass units. 19. The window assembly of claim 10, wherein the cavity that receives the vacuum port of the first one of the vacuum insulated glass units is filled with an insulative material. 20. The window assembly of claim 10, wherein at least one of the base member and the glazing member comprises vinyl having embedded additives that reduce thermal conductivity thereof. 21. The window assembly of claim 10, wherein the portion of the first one of the vacuum insulated glass units is inserted into the first slot to a bite depth of greater than or equal to 1.25 inches. 22. The window assembly of claim 10, wherein the glazing member and the base member cooperate to bear a load of the first one of the vacuum insulated glass units. 23. A window assembly comprising: a vacuum insulated glass unit including first and second glass substrates defining a space therebetween that is at a pressure lower than atmospheric pressure, one of the first and second glass substrates including a vacuum port extending outward therefrom, the vacuum port defining a passage extending through one of the first and second glass substrates and in communication with the space;a third glass substrate; anda frame assembly supporting the vacuum insulated glass unit and the third glass substrate and including a base member and a glazing member, the base member and the glazing member cooperating to define a first slot in which a portion of the vacuum insulated glass unit is received, one of the base member or the glazing member including a cavity receiving the vacuum port of the vacuum insulated glass unit, the base member defining a second slot receiving a portion of the third glass substrate. 24. The window assembly of claim 23, wherein the glazing member includes a tab that snaps into engagement with the base member. 25. The window assembly of claim 23, wherein the base member includes embedded reinforcement members. 26. The window assembly of claim 23, wherein the glazing member and the base member define a plurality of pockets that reduce thermal conductivity through the frame assembly. 27. The window assembly of claim 26, wherein at least one of the pockets is filled with air. 28. The window assembly of claim 26, wherein at least one of the pockets is filled with foam. 29. The window assembly of claim 26, wherein the base member includes a recess adjacent the first slot that receives a portion of the vacuum insulated glass unit when the vacuum insulated glass unit is in a distorted condition. 30. The window assembly of claim 29, wherein the recess includes an insulative barrier received therein to absorb energy associated with distortion of the vacuum insulated glass unit. 31. The window assembly of claim 23, wherein the glazing member structurally supports the vacuum insulated glass unit. 32. The window assembly of claim 23, wherein the cavity that receives the vacuum port is filled with an insulative material. 33. The window assembly of claim 23, wherein at least one of the base member and the glazing member comprises vinyl having embedded additives that reduce thermal conductivity thereof. 34. The window assembly of claim 23, wherein the portion of the vacuum insulated glass unit is inserted into the first slot to a bite depth of greater than or equal to 1.25 inches. 35. The window assembly of claim 23, wherein the glazing member and the base member cooperate to bear a load of the vacuum insulated glass unit. 36. A window assembly comprising: a plurality of vacuum insulated glass units each including first and second glass substrates defining a space therebetween that is at a pressure lower than atmospheric pressure; anda frame assembly supporting the vacuum insulated glass units and including a base member and a glazing member, the base member and the glazing member cooperating to define a first slot in which a portion of a first one of the vacuum insulated glass units is received, the base member defining a second slot receiving a portion of a second one of the vacuum insulated glass units, wherein one of the base member or the glazing member includes a recess adjacent the first slot that receives a portion of the first one of the vacuum insulated glass units when the first one of the vacuum insulated glass units is in a distorted condition,wherein one of the first and second glass substrates includes a vacuum port defining a passage extending through the one of the first and second glass substrates and in communication with the space, and wherein the vacuum port is disposed on the portion of first one of the vacuum insulated glass units that is received in the first slot. 37. The window assembly of claim 36, wherein the vacuum port extends outward from the one of the first and second glass substrates, and wherein one of the base member or the glazing member include a cavity receiving the vacuum port of the first one of the vacuum insulated glass units. 38. The window assembly of claim 36, wherein the glazing member includes a tab that snaps into engagement with the base member. 39. The window assembly of claim 36, wherein the base member includes embedded reinforcement members. 40. The window assembly of claim 36, wherein the glazing member and the base member defining a plurality of pockets that reduce thermal conductivity through the frame assembly. 41. The window assembly of claim 40, wherein at least one of the pockets is filled with air. 42. The window assembly of claim 40, wherein at least one of the pockets is filled with foam. 43. The window assembly of claim 36, wherein the recess includes an insulative barrier received therein to absorb energy associated with distortion of the first one of the vacuum insulated glass units. 44. The window assembly of claim 36, wherein the glazing member structurally supports the first one of the vacuum insulated glass units. 45. The window assembly of claim 37, wherein the cavity that receives the vacuum port of the first one of the vacuum insulated glass units is filled with an insulative material. 46. The window assembly of claim 36, wherein at least one of the base member and the glazing member comprises vinyl having embedded additives that reduce thermal conductivity thereof. 47. The window assembly of claim 36, wherein the portion of the first one of the vacuum insulated glass units is inserted into the first slot to a bite depth of greater than or equal to 1.25 inches. 48. The window assembly of claim 36, wherein the glazing member and the base member cooperate to bear a load of the first one of the vacuum insulated glass units.