All The Claims

What is claimed is:

1. A synchronous memory device, comprising:
addressable memory cells;
a memory controller coupled to the memory cells; and
an external output connection coupled to the addressable memory cells,
wherein, in response to a first externally-provided start address, the memory controller is adapted to provide a first data output from the memory cell array to the external output connection and to produce an anticipated start address to provide an anticipated data output from the memory cell array to the external output connection, and
wherein the anticipated data output follows the first data output to maintain an active data output stream.
2. The synchronous memory device of claim 1, further comprising address counter circuitry coupled to the controller and adapted to generate an interleaved sequence of memory cell addresses in response to the first externally-provided start address and the anticipated start address.
3. The synchronous memory device of claim 1, further comprising address counter circuitry coupled to the controller and adapted to generate a linear sequence of memory cell addresses in response to the first externally-provided start address and the anticipated start address.
4. The synchronous memory device of claim 1, wherein the controller includes an address generator circuit for producing the anticipated start address.
5. The synchronous memory device of claim 1, further comprising a comparator circuit coupled to the controller adapted to compare the anticipated start address and a second externally-provided start address.
6. The synchronous memory device of claim 1, wherein the controller includes a comparator circuit adapted to compare the anticipated start address and a second externally-provided start address.
7. A synchronous memory device, comprising:
a memory cell array;
address circuitry coupled to the memory cell array;
control circuitry coupled to the address circuitry and to the memory cell array; and
an external output connection coupled to the memory cell array,
wherein the control circuitry is adapted to provide a first burst output from the memory cell array to the external output connection in response to a first externally-provided start address,
wherein the control circuitry is adapted to internally provide a start address in response to the first externally-provided initial start address and in anticipation of a second externally-provided start address,
wherein, in response to the internally provided start address, the control circuitry is adapted to initiate an anticipated burst output from the memory cell array to the external output connection, and
wherein the anticipated burst output follows the first burst output and maintains an active data output stream on the external output connection for the first externally-provided start address and the second externally-provided start address.
8. The synchronous memory device of claim 7, further comprising address counter circuitry coupled to the control circuitry and adapted to generate an interleaved sequence of memory cell addresses in response to the first externally-provided start address and the internally-provided start address.
9. The synchronous memory device of claim 7, further comprising address counter circuitry coupled to the control circuitry and adapted to generate a linear sequence of memory cell addresses in response to the first externally-provided start address and the internally-provided start address.
10. The synchronous memory device of claim 7, wherein the control circuitry includes an address generator circuit for producing the anticipated start address.
11. The synchronous memory device of claim 7, further comprising a comparator circuit coupled to the control circuitry and adapted to compare the anticipated start address and a second externally-provided start address.
12. The synchronous memory device of claim 7, wherein the control circuitry includes a comparator circuit adapted to compare the anticipated start address and a second externally-provided start address.
13. A synchronous memory device, comprising:
addressable memory cells;
a memory controller coupled to the memory cells; and
an external output connection coupled to the addressable memory cells,
wherein the memory controller is adapted to output a data series from the addressable memory cells to the external output connection in response to external read requests beginning with a start address contained within the external read requests,
wherein the memory controller is adapted to output a first data series to the external output connection in response to a first external read request beginning with a first start address contained within the first external read request,
wherein, in response to the first start address, the memory controller is adapted to output an anticipated data series to the external output connection beginning with an anticipated start address in anticipation of a second external read request,
wherein, in response to the second external read request beginning with a second start address, the memory controller is adapted to continue to output the anticipated data series as a second data series when the second start address is the same as the anticipated start address, and
wherein the second data series follows the first data series to maintain an active data output stream on the external output connection.
14. The synchronous memory device of claim 13, further comprising address counter circuitry coupled to the memory controller and adapted to generate an interleaved sequence of memory cell addresses in response to the first start address and the anticipated start address.
15. The synchronous memory device of claim 13, further comprising address counter circuitry coupled to the memory controller and adapted to generate a linear sequence of memory cell addresses in response to the first start address and the anticipated start address.
16. The synchronous memory device of claim 13, wherein the memory controller includes an address generator circuit for producing the anticipated start address.
17. The synchronous memory device of claim 13, further comprising a comparator circuit coupled to the memory controller adapted to compare the anticipated start address and a second externally-provided start address.
18. The synchronous memory device of claim 13, wherein the memory controller includes a comparator circuit adapted to compare the anticipated start address and the second start address.
19. A system comprising:
a microprocessor; and
a synchronous memory device, including:
addressable memory cells coupled to the microprocessor; and
a memory controller coupled to the memory cells and to the microprocessor;

wherein the microprocessor is adapted to provide a first start address to provide a first data output from the synchronous memory device,
wherein, in response to the first start address provided by the microprocessor, the memory controller is adapted to produce an anticipated start address to provide an anticipated data output from the synchronous memory device in anticipation of a second start address from the microprocessor and a corresponding second data output from the synchronous memory device, and
wherein the anticipated data output follows the first data output to maintain an active data output stream from the first data output to the second data output.
20. The system of claim 19, wherein the second start address from the microprocessor and the anticipated start address are the same.
21. The system of claim 19, wherein the memory controller includes a comparator circuit adapted to compare the second start address and the anticipated cell address and to produce an output in response thereto.
22. The system of claim 19, wherein the synchronous memory device further includes a comparator circuit adapted to compare the second start address and the anticipated cell address and to produce an output in response thereto.
23. The system of claim 19, wherein the second start address is produced using an interleaved sequence.
24. The system of claim 19, wherein the second start address is produced using a liner sequence.
25. The system of claim 19, wherein the microprocessor withholds the second start address if the second start address and the anticipated start address are the same.
26. The system of claim 19, wherein the synchronous memory device is a burst extended data out dynamic random access memory (BEDO DRAM).
27. A system, comprising:
a microprocessor; and
a synchronous memory device, including:
a memory cell array;
address circuitry coupled to the memory cell array; and
control circuitry coupled to the address circuitry and to the memory cell array,

wherein the microprocessor is adapted to provide a first start address to the synchronous memory device;
wherein the control circuitry is adapted to provide a first burst output from the memory cell array to the microprocessor in response to the first start address,
wherein the control circuitry is adapted to provide an anticipated start address in response to the first start address in anticipation of a second start address from the microprocessor,
wherein, in response to the anticipated start address, the control circuitry is adapted to initiate an anticipated burst output from the memory cell array, and
wherein the anticipated burst output follows the first burst output and maintains an active data output stream to the microprocessor for the first externally-provided start address and the second externally-provided start address.
28. The system of claim 27, wherein the second start address from the microprocessor and the anticipated start address are the same.
29. The system of claim 27, wherein the control circuitry includes a comparator circuit adapted to compare the second start address and the anticipated cell address and to produce an output in response thereto.
30. The system of claim 27, wherein the synchronous memory device further includes a comparator circuit adapted to compare the second start address and the anticipated cell address and to produce an output in response thereto.
31. The system of claim 27, wherein the second start address is produced using an interleaved sequence.
32. The system of claim 27, wherein the second start address is produced using a liner sequence.
33. The system of claim 27, wherein the microprocessor withholds the second start address if the second start address and the anticipated start address are the same.
34. The system of claim 27, wherein the synchronous memory device is a burst extended data out dynamic random access memory (BEDO DRAM).
35. A system, comprising:
a microprocessor; and
a synchronous memory device, including:
addressable memory cells; and
a memory controller coupled to the memory cells,

wherein the microprocessor is adapted to provide read requests to the synchronous memory device,
wherein the memory controller is adapted to output a data series from the addressable memory cells to the microprocessor in response to the read requests beginning with a start address contained within the read requests,
wherein the memory controller is adapted to output a first data series to the microprocessor in response to a first external read request beginning with a first start address contained within the first external read request,
wherein, in response to the first start address, the memory controller is adapted to initiate an output of an anticipated data series to the microprocessor beginning with an anticipated start address in anticipation of a second read request from the microprocessor,
wherein, in response to the second read request from the microprocessor that begins with a second start address, the memory controller is adapted to compare the second start address to the anticipated start address and to continue to output the anticipated data series as a second data series when the second start address is the same as the anticipated start address, and
wherein the second data series follows the first data series to maintain an active data output stream on the external output connection.
36. The system of claim 35, wherein the second start address and the anticipated start address are the same.
37. The system of claim 35, wherein the memory controller includes a comparator circuit adapted to compare the second start address and the anticipated cell address and to produce an output in response thereto.
38. The system of claim 35, wherein the synchronous memory device further includes a comparator circuit adapted to compare the second start address and the anticipated cell address and to produce an output in response thereto.
39. The system of claim 35, wherein the second start address is produced using an interleaved sequence.
40. The system of claim 35, wherein the second start address is produced using a liner sequence.
41. The system of claim 35, wherein the microprocessor withholds the second start address if the second start address and the anticipated start address are the same.
42. The system of claim 35, wherein the synchronous memory device is a burst extended data out dynamic random access memory (BEDO DRAM).
43. A system, comprising:
a burst access memory, including:
memory cells; and
address generation circuitry coupled to the memory cells; and

a microprocessor coupled to the memory cells and to the address generation circuitry,
wherein the microprocessor is adapted to produce read requests for data stored in the memory cells,
wherein each read request includes a start memory cell address,
wherein, in response to a first start memory cell address from a first read request, the address generation circuitry is adapted to produce an anticipated start memory cell address in anticipation of a second read request from the microprocessor,
wherein the burst access memory is adapted to provide a first data output in response to the first start memory cell address and an anticipated data output in response to the anticipated start memory cell address, and
wherein the anticipated data output follows the first data output to maintain an active data output stream.
44. The system of claim 43, wherein the burst access memory includes a comparator circuit adapted to compare the anticipated start memory cell address and a second start memory cell address provided by the microprocessor as part of the second read request.
45. The system of claim 43, wherein the microprocessor withholds the second read request if the anticipated start memory cell address is equal to a second start memory cell address provided by the microprocessor as part of the second read request.
46. The system of claim 43, wherein the burst access memory includes full page length column sequence circuitry for outputting data stored at each column of a page of memory.
47. A method for continuously outputting data from a synchronous memory device, the method comprising:
providing a first read request from a microprocessor, the first read request including a first memory cell start address for the synchronous memory device;
in response to the first read request, initiating a read operation using a memory controller provided in the synchronous memory device to output a first data series from the synchronous memory device;
in response to the first memory cell start address and in anticipation of a second read request from the microprocessor, generating an anticipated memory cell start address using the memory controller provided in the synchronous memory device;
initiating an anticipated read operation using the anticipated memory cell start address; and
outputting an anticipated second data series from the synchronous memory device starting at the anticipated memory cell start address such that the anticipated data series follows the first data series to maintain an active data output stream between the first read request and the second read request from the microprocessor.
48. The method of claim 47, further including outputting a full column data sequence from the synchronous memory device.
49. The method of claim 47, further including withholding the second read request from the microprocessor if the anticipated memory cell start address is the same as a second memory cell start address for the second read request.
50. The method of claim 47, wherein the anticipated memory cell start address is generated using an interleaved sequence.
51. The method of claim 47, wherein the anticipated memory cell start address is generated using a linear sequence.
52. The method of claim 47, further including:
providing the second read request from the microprocessor, the second read request including a second memory cell start address, the second memory cell start address being different than the new memory cell start address; and
initiating a second read operation and outputting data from the synchronous memory device starting at the second memory cell start address.
53. A method for continuously outputting data from a synchronous memory device, the method comprising:
providing a first read request from a microprocessor for a first data series, the first read request including a first memory cell start address for the synchronous memory device;
in response to the first read request, initiating a read operation using a memory controller provided in the synchronous memory device to output the first data series from the synchronous memory device;
in response to the first memory cell start address and in anticipation of a second read request from the microprocessor for a second data series, generating an anticipated memory cell start address using the memory controller provided in the synchronous memory device;
initiating an anticipated read operation using the anticipated memory cell start address;
outputting an anticipated second data series from the synchronous memory device starting at the anticipated memory cell start address;
providing the second read request from the microprocessor for the second data series, the second read request including a second memory cell start address for the synchronous memory device;
comparing the second memory cell start address to the anticipated memory cell start address; and
upon determining that the second memory cell start address is the same as the anticipated memory cell start address, continuing to output the anticipated second data series as the second data series such that the second data series follows the first data series to maintain an active data output stream between the first read request and the second read request from the microprocessor.
54. The method of claim 53, further including outputting a full column data sequence from the synchronous memory device.
55. The method of claim 53, wherein continuing to output the anticipated second data series as the second data series includes withholding the second read request if the anticipated memory cell start address is the same as the second memory cell start address for the second read request.
56. The method of claim 53, wherein the anticipated memory cell start address is generated using an interleaved sequence.
57. The method of claim 53, wherein the anticipated memory cell start address is generated using a linear sequence.
58. The method of claim 53, further including, upon determining that the second memory cell start address is different than the anticipated memory cell start address, outputting the second data series from the synchronous memory device starting at the second memory cell start address.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A plasma enhanced gas reactor apparatus comprising a reaction chamber, means for coupling microwave radiation into the chamber, a pair of opposed field enhancing electrodes for concentrating microwave energy for forming plasma in a localized region between the electrodes, gas passages for passing a gaseous medium into and out of the chamber so that the gaseous medium passes through said localized region of plasma, electrode holders located in a wall of the chamber, the electrodes comprising electrically conducting tubes held in said electrode holders located in the chamber wall, the electrode tubes being removable and replaceable from outside of the apparatus.
2. Apparatus as claimed in claim 1, wherein the electrodes comprise tungsten tubes.
3. Apparatus as claimed in claim 2, wherein at least one of the electrode tubes is clamped in position by means of a collet positioned around the electrode tube and squeezed between a shoulder provided in the electrode holder and a sleeve screwed into the electrode holder to apply longitudinal pressure to the collet, the consequential radial expansion of the collet serving to clamp the electrode tube in position.
4. Apparatus as claimed in claim 2, wherein at least one of the electrode tubes has a threaded portion of larger diameter than the remainder of the tube, the threaded portion on the tube cooperating with a threaded portion of the electrode holder and secured at its chosen location by a locknut.
5. Apparatus as claimed in claim 1, wherein at least one of the electrode tubes is clamped in position by means of a collet positioned around the electrode tube and squeezed between a shoulder provided in the electrode holder and a sleeve screwed into the electrode holder to apply longitudinal pressure to the collet, the consequential radial expansion of the collet serving to clamp the electrode tube in position.
6. Apparatus as claimed in claim 1, wherein at least one of the electrode tubes has a threaded portion of larger diameter than the remainder of the tube, the threaded portion on the tube cooperating with a threaded portion of the electrode holder and secured at its chosen location by a locknut.
7. Apparatus as claimed in claim 1, wherein the reaction chamber is formed by the space between two plate members having side wall portions to form a shape in cross-section in the form of an elongated letter \u201cn\u201d and secured together with the side wall portions of one plate member in abutment with the side wall portions of the other plate member.
8. Apparatus as claimed in claim 7, wherein the said space between the two plate members is closed at one end by a closure plate and at the other end is adapted for connection to a waveguide for supplying microwave radiation into the reaction chamber.
9. Apparatus as claimed in claim 1, wherein one or both of the electrode holders has or have a hollow interior which communicates with the hollow interior of the associated electrode tube, to provide a passageway for gaseous medium into andor out of the reaction chamber, and a further passageway for gaseous medium into andor out of the reaction chamber is provided through a wall of the chamber.
10. A plasma enhanced gas reactor apparatus comprising a reaction chamber, means for coupling microwave radiation into said chamber, a pair of opposed field enhancing electrodes for concentrating microwave energy for forming plasma in a localized region between the electrodes, gas passages for passing a gaseous medium into and out of said chamber for passing the gaseous medium through said localized region, electrode holders located in a wall of the chamber, said electrodes comprising electrically conducting tubes held in said electrode holders, and means for removing and replacing said electrode tubes from outside of said apparatus.

1. A vehicle interior component which is attached to a structural member of a vehicle, the vehicle interior component comprising:
a base member fixed to the structural member; and
a panel member attached to a vehicle compartment inner side of the base member so that its outer peripheral portion is pressed to a lining member of the vehicle from the vehicle compartment inner side,
wherein the panel member includes a panel protrusion protruding on a vehicle compartment outer side in the peripheral part of its outer peripheral edge, the panel protrusion having an insertion hole into which a lock portion formed in the base member or a base fixing member fixed to the base member is inserted, and an auxiliary claw protruding on an outer peripheral edge side, and
the auxiliary claw engages with the base member to prevent the displacement of the panel protrusion to the vehicle compartment inner side when the outer peripheral portion of the panel member receives a load from the lining member.
2. The vehicle interior component according to claim 1, wherein
the panel protrusion includes a root side portion, and two arms protruding separately from the root side portion to the vehicle compartment outer side, and the insertion hole is formed between the two arms, and
the auxiliary claw is formed on the outer peripheral edge side of the panel member in each of the arms.
3. The vehicle interior component according to claim 1 which is an overhead console that is attached to a ceiling structural member of the vehicle.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A system for incorporating content into user-generated media, the system comprising:
a component configured to record or access user-generated media;
a component configured to retrieve at least one of location or social activity information;
a component configured to send, to a server, the retrieved information,
wherein the server is configured to send at least one effect or piece of advertising media based at least in part on the retrieved information;

a component configured to receive an indication of the at least one effect or piece of advertising media;
a component configured to receive, from the server, a generated unified media object based at least in part on the user-generated media and the at least one effect or piece of advertising media; and
a component configured to send the unified media object to a sharing service.
2. The system of claim 1, further comprising:
a component configured to store mappings between at least one of location or social activity information and advertising media or effects.
3. The system of claim 1, further comprising:
a component configured to store mappings between date and time information and advertising media or effects.
4. The system of claim 1, further comprising:
a component configured to receive, from an advertiser, a first piece of advertising media, a location, a date, a start time, and an end time; and
a component configured to store a mapping between the advertiser, the first piece of advertising media, the location, the date, the start time, and the end time, wherein the server is configured to retrieve location-based effects andor advertising media based at least in part on location information, date information, start time information, and end time information.
5. The system of claim 1, wherein the unified media object includes a selected piece of advertising media overlaid on the user-generated media.
6. The system of claim 1, wherein the at least one effect or piece of advertising media is a preroll or postroll ad placed before or after display of the user-generated media.
7. The system of claim 1, wherein the received at least one effect or piece of advertising media includes an indication of at least one piece of advertising media that contains audio.
8. The system of claim 1, wherein the received an of the at least one effect or piece of advertising media includes an indication of at least one piece of advertising media that includes at least two forms of advertising content.
9. The system of claim 8, wherein the at least two forms of advertising content include a frame and a logo.
10. The system of claim 1, further comprising:
a component configured to remove a selected piece of advertising media from the user-generated media.
11. The system of claim 10, wherein removing the selected piece of advertising media from the user-generated media comprises removing the selected piece of advertising media in response to determining that a receiving user subscribes to a service to avoid ads.
12. The system of claim 1, further comprising:
a component configured to receive configuration information for the at least one effect or piece of advertising media; and
a component configured to send settings for the received configuration information for the at least one effect or piece of advertising media wherein the generated unified media object is further based at least in part on the settings for the received configuration information for the at least one effect or piece of advertising media.
13. A method, performed by a computing system having a memory and a processor, for incorporating content into user-generated media, the method comprising:
retrieving, by the computing system, at least one of location or social activity information;
sending, by the computing system, the retrieved information to a server;
receiving, by the computing system, an indication of at least one effect selected based at least in part on the retrieved information;
receiving, by the computing system, from the server, a unified media object that includes at least one piece of user-generated media and at least one effect; and
sharing, by the computing system, the unified media object.
14. The method of claim 13, wherein the user-generated media includes a video recorded using a third-party application and wherein the computing system is a mobile phone or tablet.
15. The method of claim 13, wherein the retrieved information includes location information determined by a polygonal shape defined at least in part by a latitude xy pair and a longitude xy pair.
16. The method of claim 13, wherein the retrieved information includes location information determined by a central latitude and longitude and a radius around the central latitude and longitude.
17. A computer-readable storage medium storing instructions that, if executed by a computing system having a processor, cause the computing system to perform a method for incorporating content into user-generated media, the method comprising:
receiving at least one of location or social activity information;
identifying, based at least in part on the received information, at least one effect or piece of advertising media;
sending an indication of the identified at least one effect or piece of advertising media;
receiving user-generated media;
combining the user-generated media and the at least one effect or piece of advertising media identified based at least in part on the received information.
18. The computer-readable storage medium of claim 17, wherein the received information includes location information determined by proximity to a locating beacon.
19. The computer-readable storage medium of claim 17, wherein the received information includes at least one piece of advertising media personalized based on information about a user.
20. The computer-readable storage medium of claim 19, wherein the information includes at least one piece of demographic information and a name so that at least one piece of advertising media of the received information is personalized to include the at least one piece of demographic information and the name.
21. The computer-readable storage medium of claim 17, wherein the received indication of the at least one effect or piece of advertising media is selected by a user.
22. The computer-readable storage medium of claim 17, wherein the received information includes at least one piece of advertising media personalized based on information about an ongoing event of interest to the user.
23. The computer-readable storage medium of claim 22 wherein the ongoing event of interest to the user is a sporting event and wherein the at least one piece of advertising media is personalized based on a current score of the sporting event.