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A highly [[Flexing|flexible]] [[Template:Polyphasic Sleep Schedules|schedule]], which evolves from the [[Everyman]] schedules, usually the extended variants (mostly [[E3|E3-extended]]). It includes a possibility to take a [[Naps|nap]] whenever tired throughout the day, the varying number of naps, and the occasional change in nap/core duration from day to day.<ref>[https://www.polyphasic.net/schedules/sevamayl/ polyphasic.net]. Retrieved 19-11-2020.</ref> {{TNT|SEVAMAYL}}

A highly [[Flexing|flexible]] [[Template:Polyphasic Sleep Schedules|schedule]], which evolves from the [[Everyman]] schedules, usually the extended variants (mostly [[E3|E3-extended]]). It includes a possibility to take a [[Naps|nap]] whenever tired throughout the day, the varying number of naps, and the occasional change in nap/core duration from day to day.<ref>[https://www.polyphasic.net/schedules/sevamayl/ polyphasic.net]. Retrieved 19-11-2020.</ref> {{TNT|SEVAMAYL}}

== Mechanism ==

== Mechanism ==

After a rigid Everyman-schedule has been adapted to, the brain has replaced its standard sleeping schedule and adjusted to a reduced sleep total. It is then possible to slowly shift the new schedule, containing SOREM naps and highly repartitioned cores, without reducing sleep quality, as opposed to flexing during the adaptation. Because the naps are being moved they will most likely contain a lower amount of REM than the naps of the strict schedule, which may require an extra nap to give the same total REM sleep. Still, because a significant part of the REM need is taken care of during the core, the main purpose of the naps is to alleviate homeostatic pressure. It is also possible to utilize Pronaps to more efficiently fulfill the REM need, which results in needing fewer naps later in the day.

After a rigid Everyman-schedule has been adapted to, the brain has replaced its standard sleeping schedule and adjusted to a reduced sleep total. It is then possible to slowly shift the new schedule, containing [[SOREM]] naps and highly repartitioned cores, without reducing sleep quality, as opposed to flexing during the adaptation. Because the naps are being moved they will most likely contain a lower amount of [[REM]] than the naps of the strict schedule, which may require an extra nap to give the same total REM sleep. Still, because a significant part of the REM need is taken care of during the core, the main purpose of the naps is to alleviate [[Sleep pressure|homeostatic pressure]]. It is also possible to utilize [[Pronap|Pronaps]] to more efficiently fulfill the REM need, which results in needing fewer naps later in the day.

== Scheduling ==

== Scheduling ==

Schedule a 4-5 hour core, with about 2-6 naps of 10-20 minutes in length. Cycles may naturally compress to 80m with frequent sleeps. Plan for 90m cycles until there are many early natural wakes. Nap spacing should take into account natural periods of tiredness, as well as the morning circadian peak. In the evening 6-7 hour gaps are common, whereas alertness may wane after 3-4 hours awake in the morning. A longer pronap of  up to 45m might be plausible during the REM peak (6-9am) if all SWS has already been accounted for, which it should be if the base strict schedule has already been adapted to. This would allow larger gaps and/or increased flexibility later in the day. The core might be flexed and/or varied max. 90m in length, as optional variables after adapted to a base schedule. It’s not recommended to add an extra cycle more than once a week, as more frequent lengthening seems to destabilize adaptations to the reduced sleep total.

Schedule a 4-5 hour [[Cores|core]], with about 2-6 naps of 10-20 minutes in length. Cycles may naturally compress to 80m with frequent sleeps. Plan for 90m cycles until there are many early natural wakes. Nap spacing should take into account natural periods of tiredness, as well as the morning circadian peak. In the evening 6-7 hour gaps are common, whereas alertness may wane after 3-4 hours awake in the morning. A longer pronap of  up to 45m might be plausible during the [[REM peak]] (6-9am) if all SWS has already been accounted for, which it should be if the base strict schedule has already been adapted to. This would allow larger gaps and/or increased flexibility later in the day. The core might be flexed and/or varied max. 90m in length, as optional variables after adapted to a base schedule. It’s not recommended to add an extra cycle more than once a week, as more frequent lengthening seems to destabilize adaptations to the reduced sleep total.

== Flexibility ==

== Flexibility ==

== Variants ==

== Variants ==

The core length of SEVAMAYL can be scheduled from 4.5 hours in length to no upper limit. The core length might naturally decrease to about 4 hours if cores compress in length, which is common in polyphasic schedules, but should not be expected until after many weeks. Some people might be able to adapt to a 3.5 hour long core, but it is unclear at this point in time if the flexibility is great enough, and all attempts have failed so far. There need to be at least 6 equivalent monophasic cycles on the intermediate Everyman schedule for SEVAMAYL to be adaptable, compared to the normal 5 equivalent monophasic cycles on the standard schedules (which refers to one quality REM nap effectively replacing one nighttime 90m core cycle, in its ability to rejuvenate). While SEVAMAYL does not have a set number of naps, they are still going to be approximately reflected in the intermediate Everyman schedule. For example, if E3-extended is the intermediate schedule, then SEVAMAYL is going to have more naps than when compared to E2-extended as an intermediate schedule. This is because the fewer core cycles there are, the more REM need is required to be taken care of during the naps. The core should be placed in during the night, and the scheduling range depends on the variant of SEVAMAYL:

The core length of SEVAMAYL can be scheduled from 4.5 hours in length to no upper limit. The core length might naturally decrease to about 4 hours if cores [[Core compression|compress]] in length, which is common in polyphasic schedules, but should not be expected until after many weeks. Some people might be able to adapt to a 3.5 hour long core, but it is unclear at this point in time if the flexibility is great enough, and all attempts have failed so far. There need to be at least 6 equivalent [[monophasic]] cycles on the intermediate Everyman schedule for SEVAMAYL to be adaptable, compared to the normal 5 equivalent monophasic cycles on the standard schedules (which refers to one quality REM nap effectively replacing one nighttime 90m core cycle, in its ability to rejuvenate). While SEVAMAYL does not have a set number of naps, they are still going to be approximately reflected in the intermediate Everyman schedule. For example, if E3-extended is the intermediate schedule, then SEVAMAYL is going to have more naps than when compared to E2-extended as an intermediate schedule. This is because the fewer core cycles there are, the more REM need is required to be taken care of during the naps. The core should be placed in during the night, and the scheduling range depends on the variant of SEVAMAYL:

{| class="wikitable"

{| class="wikitable"

|Core length

|Core length

== Adaptation ==

== Adaptation ==

Up to this point in time, there have been no successful cold turkey adaptations to SEVAMAYL. There have certainly been attempts, however all of them have failed. It is believed that this is the case because the sleep pressure generated from shortening the total sleep time is not great enough to force the naps to repartition, as is the case with most schedules. [https://www.polyphasic.net/schedules/spamayl/ SPAMAYL] on the other hand has no core to partially take care of the sleep pressure, leading to the naps forcefully becoming entrained. Because of this it is necessary to start a SEVAMAYL-adaptation only after successfully adapting to a rigid schedule first, through gradual adaptation.  

Up to this point in time, there have been no successful [[cold turkey]] adaptations to SEVAMAYL. There have certainly been attempts, however all of them have failed. It is believed that this is the case because the sleep pressure generated from shortening the total sleep time is not great enough to force the naps to repartition, as is the case with most schedules. [https://www.polyphasic.net/schedules/spamayl/ SPAMAYL] on the other hand has no core to partially take care of the sleep pressure, leading to the naps forcefully becoming entrained. Because of this it is necessary to start a SEVAMAYL-adaptation only after successfully adapting to a rigid schedule first, through [[gradual adaptation]].  

Once the rigid schedule has been adapted to for at least a month, a flexing adaptation is started and escalated to varying nap length and possibly even core placements. Each increase in nap flexibility of about 30-60 minutes takes a couple weeks to adapt to. Flexing naps just 10-15 minutes more takes up to a week to adapt to. While adapting to flexible naps, large periods of time will be unpredictably drowsy around those original nap times.  

Once the rigid schedule has been [[adapted]] to for at least a month, a flexing adaptation is started and escalated to varying nap length and possibly even core placements. Each increase in nap flexibility of about 30-60 minutes takes a couple weeks to adapt to. Flexing naps just 10-15 minutes more takes up to a week to adapt to. While adapting to flexible naps, large periods of time will be unpredictably drowsy around those original nap times.  

Since SEVAMAYL has such a high flexibility, the standard Everyman-schedules are not going to suffice as the first adaptation step, and extended versions are necessary. The most common intermediate adaptation step is E3-extended, but E2-extended is also possible for a 6-hour core SEVAMAYL. E4-extended should work for people with sleep requirements on the lower side, but it is unclear how flexible a mere 3.5 hour long core will be on an adapted SEVAMAYL. There are only reports of a few successful E3-flex sleepers where one or two naps were a bit flexible, but otherwise required strict timing. A 3 hour core will likely not work.  When comparing the raw nap flexibility of 3 hour versus 3.5 hour core E3, the difference is massive in that the 3-hour core schedules have nearly no flexibility at all.

Since SEVAMAYL has such a high flexibility, the standard Everyman-schedules are not going to suffice as the first adaptation step, and extended versions are necessary. The most common intermediate adaptation step is E3-extended, but E2-extended is also possible for a 6-hour core SEVAMAYL. E4-extended should work for people with sleep requirements on the lower side, but it is unclear how flexible a mere 3.5 hour long core will be on an adapted SEVAMAYL. There are only reports of a few successful E3-flex sleepers where one or two naps were a bit flexible, but otherwise required strict timing. A 3 hour core will likely not work.  When comparing the raw nap flexibility of 3 hour versus 3.5 hour core E3, the difference is massive in that the 3-hour core schedules have nearly no flexibility at all.

The shifting can be done either with just flexing or by flexing and adding a nap, until the alertness levels have risen back up and stabilized. A 10-15 minute shift should take roughly 3 to 4 days to adapt to for each nap shifted, but can take up to a week as described previously. After this step is completed the flexing length of the rigid point is increased, one or two naps at a time. After naps are refreshing despite being flexed a small amount, flexing can be increased in larger jumps. The flexing span can be increased by 30-60 minutes each direction, and then up to  2 hours in each direction for each nap. Occasionally add a nap during unusually long wake periods to get used to a variable nap number. The nap times should after this point be alterable according to the feeling of homeostatic pressure and to make way for duties that change times.

The shifting can be done either with just flexing or by flexing and adding a nap, until the alertness levels have risen back up and stabilized. A 10-15 minute shift should take roughly 3 to 4 days to adapt to for each nap shifted, but can take up to a week as described previously. After this step is completed the flexing length of the rigid point is increased, one or two naps at a time. After naps are refreshing despite being flexed a small amount, flexing can be increased in larger jumps. The flexing span can be increased by 30-60 minutes each direction, and then up to  2 hours in each direction for each nap. Occasionally add a nap during unusually long wake periods to get used to a variable nap number. The nap times should after this point be alterable according to the feeling of homeostatic pressure and to make way for duties that change times.

During the adaptation to polyphasic schedules, some people will start waking up after around 12 to 15 minutes into a nap. When this is the case, the best approach is to attempt to salvage 5 or more minutes of the nap by returning to sleep. Normally these premature wakes last for a few days to a few weeks, but eventually stop occurring. However, on SEVAMAYL there is no need to return to sleep after a premature wake. If you wake up before your alarm the best strategy is to get up. Though, it should be noted that returning to sleep and sleeping for the full duration of the nap will yield more wakefulness sustaining. What this means is that it is useful to sleep for the full duration of the nap if one’s schedule requires a long gap of wakefulness to be had. The premature wakes from the naps is the main reason why they are presented as 15 minutes long on the standard SEVAMAYL schedule, which is the average nap length. It is also normal for naps taken during the later parts of the day shorten in length, while early naps stay 20 minutes long. '''Recently, there have been successful adaptations to SEVAMAYL with occasional extension of a nap after adaptation.''' One such case, sleeper Gosugenji from the Discord has demonstrated that it is possible to occasionally extend a nap duration from <u>20m to 30m</u> (when a bit more tired than usual to garner more recuperative values from the longer nap) even though his default nap duration is 20m for all naps. This also opens up for even more versatility in nap duration of SEVAMAYL, when the adaptation phase has been completed. This leads back to the importance of the ability to listen to one’s own body when attempting this schedule.

During the adaptation to polyphasic schedules, some people will start waking up after around 12 to 15 minutes into a nap. When this is the case, the best approach is to attempt to salvage 5 or more minutes of the nap by returning to sleep. Normally these premature wakes last for a few days to a few weeks, but eventually stop occurring. However, on SEVAMAYL there is no need to return to sleep after a premature wake. If you wake up before your alarm the best strategy is to get up. Though, it should be noted that returning to sleep and sleeping for the full duration of the nap will yield more wakefulness sustaining. What this means is that it is useful to sleep for the full duration of the nap if one’s schedule requires a long gap of wakefulness to be had. The premature wakes from the naps is the main reason why they are presented as 15 minutes long on the standard SEVAMAYL schedule, which is the average nap length. It is also normal for naps taken during the later parts of the day shorten in length, while early naps stay 20 minutes long. '''Recently, there have been successful adaptations to SEVAMAYL with occasional extension of a nap after adaptation.''' One such case, sleeper Gosugenji from the [[Polyphasic Discord Community]] has demonstrated that it is possible to occasionally extend a nap duration from <u>20m to 30m</u> (when a bit more tired than usual to garner more recuperative values from the longer nap) even though his default nap duration is 20m for all naps. This also opens up for even more versatility in nap duration of SEVAMAYL, when the adaptation phase has been completed. This leads back to the importance of the ability to listen to one’s own body when attempting this schedule.

Delaying a nap may increase desire to sleep, but once adapted will have no effect on performance, alertness, or general feeling of well-being until it’s delayed excessively – perhaps longer than an hour or two in the morning, or delayed longer than 2-4 hours in the evening. The advantage of SEVAMAYL, though, is if you can anticipate that day’s busy times, then you can plan an extra nap before as well as delaying the default nap much later.

Delaying a nap may increase desire to sleep, but once adapted will have no effect on performance, alertness, or general feeling of well-being until it’s delayed excessively – perhaps longer than an hour or two in the morning, or delayed longer than 2-4 hours in the evening. The advantage of SEVAMAYL, though, is if you can anticipate that day’s busy times, then you can plan an extra nap before as well as delaying the default nap much later.