How many Ack[i] signals can be 1 at the same time?A1B2CNSUBMIT

How many Req[i] signals can be 1 at the same time

7.3-1. Overlapping 802.11 wireless networks, with ACKs (d)Overlapping wireless senders with ACKs. Now suppose we are again in the wireless scenario, and that for every data message sent from source to destination, the destination will send an ACK message back to the source (e.g., as in TCP). Also suppose that each ACK message takes up one slot. What is the maximum rate at which data messages can be transferred from C to A, given that there are no other messages between any other source/destination pairs? [Note that successful ACKs do not count towards data message throughput].Group of answer choices1 message/slot.0.25 messages/slot (i.e., one message every four slots).0.5 messages/slot (i.e., 1 message every two slots).2 messages/slot.

Can you identify cases where the receiver is ACKing every other received segment (see Table 3.2 in the text) among these first ten data-carrying segments?Group of answer choicesNo. Each of the first 10 ACKs acknowledges exactly 1448 bytes of payload data.Yes! After the first ACK every remaining ACK acknowledges two segments' worth of payload data.Yes! Every ACK acknowledges two segments' worth of payload data.

7.3-1. Overlapping 802.11 wireless networks, with ACKs (e)Overlapping wireless senders with ACKs (more). Suppose now that A sends messages to B, and D sends messages to C, and suppose that the destination will again send an ACK message back to the source (e.g., as in TCP) and that each ACK message takes up one slot. What is the combined maximum rate at which data messages can flow from A to B and from D to C?  [Hint:  this is a bit trickier than the previous questions].Group of answer choices0.66666 messages/slot (i.e., 2 messages every three slots)0.5 messages/slot (i.e., 1 message every two slots).0.25 messages/slot (i.e., one message every four slots).1 message/slot.

In an Arbiter with Ack[i] at 1 what needs to happen for Ack[i] to become 0