The Mysterious Pyramid on Elephantine Island: Possible Origin of the Pyramid Code

After the step pyramids of the Third Dynasty and before the true pyramids of the Fourth Dynasty, seven mysterious minor step pyramids were built by King Sneferu1 and a predecessor. None of them were tombs. Clues as to why they were built emerged from analyzing their orientation to objects in the sky worshiped by the ancient Egyptians and hinted at a renewed preoccupation with measuring time and the flow of the Nile. The first of the seven was built on the Island of Elephantine, Egypt. Its orientation suggests that an aspect of the star Sirius was being enshrined. This paper proposes that this aspect pertained to the different timings of its annual invisibility period observable from either the capital at Memphis in Lower Egypt or from Upper Egypt at Elephantine. I argue that these periods, measured in days, were converted to dimensions in cubits, and consequently these numbers and the resulting geometric relationships between them became important. The evidence presented shows that this original design principle of expressing astronomic periods as dimensions was then expanded to encode the relationship between the period of invisibility of Sirius and the sidereal orbital period of the Moon within the exterior of several of the most prominent pyramids of Egypt including the Great Pyramid. The geometry of this relationship and even the method of the expansion itself can be understood from a religious context plausibly prevailing during the peak of the Pyramid Age.


Introduction
On Elephantine Island (Yebu/Abu) by Aswan, Egypt lie the ruins of a peculiar Third Dynasty step pyramid Egyptologists call "cultic" (Figure 1). By size, the few cultic pyramids discovered along the Nile (Dreyer, 1980;Swelim, 2017), also known as Minor Step Pyramids (MSPs), resemble the many "cult" pyramids next to bigger main pyramids built for the deceased kings of the Old and Middle Kingdoms (Lehner, 1997); cult pyramids were usually placed in the southeast corner (e.g. G1-d;Hawass, 1996) of the funerary complex. They did not serve as a tomb for the body of the dead king, but as a symbolic tomb for the king's life-spirit (ka) according to prevailing consensus.
The tomb-less "Yebu Pyramid" like the other six MSPs, however, is not next to a larger pyramid and its ruins were only identified as a pyramid by a research team of the German Archaeological Institute in the late 1970's (Dreyer & Kaiser, 1980). Unlike many other pyramids, but like most MSPs (Belmonte et al., 2005), it is not aligned to the four cardinal directions. Instead, it is off the cardinal cross by circa 17˚ westward 2 ( Figure 2). Its faces' alignments do not imitate the direction of the flow of the Nile around the island. This somewhat contradicts the theory that MSPs were only built with the intent to serve as Nile monitors to time the floods (discussed by Belmonte et al., 2005). The exception is the MSP at Seila just east of the Meydum Pyramid, which seems to be the first pyramid ever to be oriented to the cardinal directions (Belmonte et al., 2005). Instead, the pyramid's eastern faces point to that area of the morning horizon (73˚) where the Sun made its appearance on the day of a heliacal rising of the star Sirius (Belmonte et al., 2005) in the 26th century B.C., which the authors imply was the primary intent behind this exceptional orientation. However, the alternative view that MSP's were built as landmarks to measure the Nile's speed 3 from Yebu to Memphis during the annual flood is not incompatible with the idea that the first, most upstream such landmark, the Yebu Pyramid, would have been time-calibrated to the reappearance of Sirius after a period of visual absence at either location, and, importantly, the difference in timing between them. This would have been a plausible motive for the variant alignment and deliberately chosen dimensions, whose theme I develop in this paper.
The Yebu Pyramid is unique in Egypt having been made entirely from granite blocks presumably from the local quarry on the island, the same material which would later be used to build the King Chamber of Khufu's pyramid, the floor of Lepsius XIII, and the casing of the valley temple below Khafre's Pyramid. It has been tentatively attributed to King Huni (Verner, 2010), last ruler of the Third Dynasty and Sneferu's presumed father. A granite cone with Huni's name was found nearby by Henri Gauthier in 1909 who thought the Yebu Pyramid's ruins were part of a Jewish temple (Swelim, 2017). However, a sealing also found in the rubble nearby identified Nebka (Seidlmayer in Hornung et al., 2006: 121) and therefore the issue of ownership of the Yebu Pyramid remains in doubt.
The mystery of its purpose likewise has endured: Why was it built, if not to serve as a tomb for either body or spirit of a dead king? Belmonte et al. suggest MSPs may have served as astronomic time markers to substitute for the progres- 3 The flood's speed could vary year-over-year such that it may have arrived at Elephantine days to weeks before it inundated Memphis and the Delta (Parker, 1950;Krauss in Hornung et al., 2006: 370-372 (Belmonte et al., 2005). Thus, MSPs were meant to mark the horizontal position of the heliacal rising of Sirius (wp-rnpt), the winter solstice sunset point, and the constellation Ursa Major (Mesekhtiu) according to the authors. Another intriguing possibility as to motive is the precession-and latitude-dependent temporary visual fading of the star Alkaid 4 in Ursa Major which may have put into question its imperishable attribute 5 .
While Belmonte et al. do not explicitly mention this, the implication of their findings is that the Pyramid Age entered its peak phase when, and maybe because, the schematic method of keeping time and even its schematic restoration with the recognition of the Sothic cycle enshrined at Saqqara (Bauval & Brophy, 2013) failed to satisfy the need for a more predictive measure of time to synchronize the Nile's annual flood in harmony with events in the sky.

Observations, Insights, and Results
This is the pretext from which I wish to propose here that one important aspect of exterior pyramid design during the 4th Dynasty, i.e. dimensions and angles, originated from astronomic insights gained by measuring and comparing the number of days of Sirius' invisibility at Yebu relative to Iunu 6 and that this numerical insight became part of a building code later embedded in several well-known pyramids.
The Reconstruction: From the remains of the Yebu Pyramid, Dreyer & Kaiser (1980) estimated that its height originally stood at 10.46 m -12.55 m (with or without the foundation), extended over 18. 46 -18.55 meters at the lowest base and rested on a foundation 23.7 meters long. Several models have been proposed to reconstruct its original shape based on various temple pictographs, including 3-step, 4-step, and Benben (Swelim, 2017).
Here, I want to focus on one particular reconstruction considered (Dreyer & Kaiser, 1980;Swelim, 2017; Figure 3) verbally confirmed to me as the most probable by a member of the German archaeological field team when I first visited the site in 2017.
In Dreyer's proposal, the Yebu Pyramid had three levels above the foundation: A core reaching to the top at 24 cubits and two outer layer accretions forming two steps, 18 and 10 cubits above ground ( Figure 4). Since the pyramid does not extend much above the first level in its current state, these dimensions are educated guesses on the part of the authors (Dreyer & Kaiser, 1980;Swelim, 2017).
A variance of 1 cubit up or down for the proposed dimensions above the base of each reconstruction is possible.
The Orientation: The key feature tying the Yebu Pyramid to an aspect of Sirius is in the orientation as previously pointed out by Belmonte et al. A hereto-fore unappreciated features of this orientation is that, due to the −17˚ rotation 4 The visibility of the outskirts of the circumpolar region's visibility depends on precession. 5 The circumpolar stars never cosmically set. To the ancient Egyptians, these stars were the immortal soul-spirits of gods who never died nor needed to resurrect. 6 Heliopolis, today's Ayn Shams in north-east Cairo, Egypt.    This is a typical altitude bracket often cited. Schaefer has argued that a more realistic arcus visionis encompasses the altitude bracket of Sun at −6˚ and Sirius at +5˚ (Schaefer, 2000). 8 Belmonte gives 115˚-107 1/3 for 3000 B.C.-500 A.D. at Aswan. (Belmonte in Hornung et al., 2006: 384). 9 The headings of Sirius Risings change with time due to precession. For the last 12,000 years the heading has gradually moved northward on the eastern half of the horizon as seen from the northern hemisphere. Reconstructing the vantage point from the position of the Yebu Pyramid is complicated by the fact that nowadays the view of the relevant part of the horizon is graced by the Archangel Michael's Coptic Orthodox Cathedral ( Figure 5).
However, standing on the top of the Yebu Pyramid and gazing towards the southeast with a heading of 118˚, one would have been able to see quite far into the distance because the pyramid stood on higher ground at an elevation of ~325 feet (Google Earth) to which one adds the height of the pyramid itself (~41 feet) and the height of an observer (~5 feet at eye level). Fortuitously, the hill tops behind Aswan decline for a short stretch around that heading.
It is still difficult to say with certainty, if an ancient observer standing here would have been able to spot Sirius at an above-horizon altitude of 2˚ during its heliacal rising. Stellarium gives a range of headings, 114˚ -118˚, for the 27th century B.C., if you vary the star's altitude between 2˚ and 8˚. In the 42th century B.C., assuming visibility at 2˚ altitude, the heading would have been 121˚ which matches the heading of the open niche created by three boulders laying on the other side of the island to the southeast. This niche and its orientation may have originally attracted the attention of predynastic builders who erected a sacred hut there (Wells, 1985) on which the more recent renditions of Satet's temple were later constructed. This raises some interesting possibilities about when the observations leading to both temple and pyramid orientations were originally made, but is not considered in this paper's analysis. The main take-away is that there is another monument on this island which demonstrably tracked Sirius' visual appearance from its vantage point. Wells (1985) reported astronomic measurements of the several reincarnations of the Satet temple first built into the aforementioned boulder niche in predynastic  Here, I will assume that during the life-time of Huni (or Nebka) Sirius became visible within an azimuth range of 114˚ -118˚ at an altitude of 2˚ -8˚ as seen from the spot where the Yebu pyramid now stands. In terms of the timing of the visual absence of Sirius, these differences could have delayed the observation by up to 7 days, if they were made from this spot on the island and not from higher ground elsewhere on the mainland. However, I suspect the latter is the case because the dimensions of the pyramid indicate the true period was known as shown below. Therefore, the Yebu pyramid may not have been the observatory, but rather a shrine on this sacred island to record observations made from an observatory elsewhere nearby 10 and to mark them as pertaining to Sirius. While the Satet temple on Yebu may have been a sanctuary purely dedicated to her celestial appearance as Sirius, the pyramid, I argue, was a quantitative astronomic record built to record its timing. Rolf Krauss has argued that the best way to reconcile discrepancies in Egypt's chronology relating to schematic relative to actual variations of an Egyptian year based on wp-rnpt's is to anchor the reference observations to Upper Egypt, i.e. Elephantine, for most of its history (Krauss in Hornung et al., 2006: 444).
As was pointed out by Belmonte et al. (2005) 11 Schaefer presents data that Sirius Risings occurred 92.3 -95.8 days since a vernal equinox between 3000 B.C. and 2500 B.C., respectively (Schaefer, 2000 D. 782,877) and late August (e.g. J.D. 782,973) for a sunrise declination of circa 16˚, the earlier of which more closely coincided with the helical rising of the belt stars of Orion and was thus too early for Sirius to become visible. The latter is too late for helical risings during this era. This means the pyramid's edge seems to more accurately implicate Sirius as its orientation guide than its eastern face. The ~26½˚ north-of-due east offset of the Sun's azimuth on the day of heliacal risings during that era is a familiar angle to those who study the architecture of the Great Pyramid built a century later, specifically the angle of the passages leading into the pyramid. The western face, whose normal points to an azimuth of 253˚, covers the segment of the horizon of Sirius' cosmic settings in the 27th century B.C., ~248˚, though this position was certainly not observable from Yebu Island because of the high hills on the west bank of the Nile there. The difference, 248˚ − 114˚ = 134˚, is that sector of the total visual field above which Sirius theoretically could then have been seen in the night sky each year ( Figure 1). The span of this arc changes with precession confounded by the proper motion of the star itself.
To sum, the orientation is consistent with the idea that the pyramid pertained to Sirius, but, in contrast to Belmonte et al. (2005), I believe the southeast edge is the more accurate indicator to that effect than the eastern face. This also supports the idea that the pyramid, more than a shrine, was designed with scientific intent. I agree with the authors that the Yebu Pyramid was not oriented with the intent to follow the course of the Nile. The fact that an edge or corner rather than a face was an orientation marker has precedence in both late predynastic and early dynastic Egypt when kings built large enclosures, so-called "fortresses of the gods" (Wilkinson, 2000: 18-19). These enclosed rectangular spaces probably symbolized the heavens, i.e. Nut. They typically had a gate at the eastern aspect of the southeast corner and at the northern aspect of the northeast corner. This architectural theme was preserved for at least 400 years prior to when the Yebu Pyramid was built (Wilkinson, 2000: 18). It is possible that these two gates opened symbolic passages to Sirius/Horus/Sopdu and Alkaid in Ursa Major (Mesekhtiu), the ox thigh of the Egyptian Zodiac representing the god Seth. This physical lay-out on the ground correlates well with the stellar theme of the Pyramid Texts and an allusion to the Ogdoad (water lilies; see discussion). According to James P. Allen's translation (Allen, 2005: 67) of inscriptions on Teti's burial chamber's west wall gable, the first spell recited to Nut reads: [7 Recitation. Open] sky! Open Earth! Open the door to Horus, you of the enclosure wall; pull open the door to Seth, you water-lilies-and [capsize] to him as the one at the fore of his toppled wall, for Teti has passed [by you] as Atum.
The idea that these two corner-associated gates may have symbolized passages to important stars does not preclude another, i.e. that the enclosure's four corners themselves may well have symbolized the maximal excursions of the Sun at sunrise (Kheper) and sunset (Atum) during the year.
Having elucidated the intent behind the orientation of the pyramid, the next question is if the three-step design and its dimensions mattered too. Did the numbers in cubits have astronomic meaning or were they chosen at random? Proving intent without written evidence so professed is of course difficult. However, if one can show that quantitative observations in the sky had practical or religious (or both) significance, a circumstantial case can be made that the numbers compelled priestly planners to architecturally enshrine them in other buildings just as they thematically enshrined alignments. The burden of proof therefore demands the demonstration of a recognizable theme enshrined in more than one building. But before identifying a putative architectural theme emerging from the Yebu Pyramid, I must first build a contextual bridge between astronomy and myth for those readers not familiar with how these two may relate and then I will demonstrate that what was numerically observed in the sky found its way into the architecture of the buildings on the ground, specifically their dimensions. The focus of the following section is to confirm that during the initial phase of the Old Kingdom, Horus was believed to be Sopdu in the sky, that his annual invisibility period of 70 days was recognized as a two-stage journey from west to east through the underworld each 35 days-long, and that remnants of this belief were preserved in the Pyramid Texts, even after the Egyptian state converted (back) to a predominantly solar worship.
Astronomy and Religion: The day of the heliacal rising of the star system Sirius A and B (Egyptian: spd, "Sopdu", i.e. sharp tooth, or sharp one; Greek: Sothis) in the constellation Canis Major ("Sopdet"), was the oldest known Egyptian New Year's Day, called wp-rnpt ("wep-renpit"; "Opening of the Year"). In the Edfu texts (Fairman, 1935), this day commemorated the beginning of the battles of Horus of Behdet with Horus' uncle/brother Set to revenge Set's slaying of Horus' father Osiris. Sopdu in the sky and Horus in myth therefore appeared on the same day. Horus of Behdet is described as a winged disk as early as the Fifth Dynasty (Shonkwiler, 2014: 63-66) and his attribute is that of a harpooner attested in as early as the Middle Kingdom (Shonkwiler, 2014: 234).
Besides their synchronous appearance, the harpoon/spear of Horus semantically relates to the meaning of spd, i.e. a sharp projectile reminiscent of a falcon and the "sharp" horizontal rays of bright light of Sopdu as it "cuts" through the predawn morning haze. Horus was also associated with the Sun as Horakhty ("Horus of Two Horizons") in the Pyramid Texts and in the New Kingdom Horakhty appears to be the name of the celestial counterpart of the Great Sphinx monument at Giza (Schoch & Bauval, 2017 (Parker, 1950). Since this new calendar was not synchronized to the natural period between wp-rnpts, the two cycles, natural and man-made years, gradually dissociated. The schematic Sothic Super-Cycle created by this drift was presumably recognized and numerically enshrined by Imhotep (Bauval & Brophy, 2013). Instead of wp-rnpt's, Nile floods were timed by direct measurements at, for example, Elephantine Island. The Egyptians' mythological interpretation of wp-rnpt was the resurrection of the soul-spirit of Horus and the Horus-Kings.
Factors which determine the timing and horizontal position of cosmic settings and heliacal risings of stars and planets have been reviewed by Belmonte (in Hornung et al., 2006: 380-385) and Schaefer (Schaefer, 2000). These factors conspire to produce an annular period of visual absence of Sirius of about 68-71 days at a latitude of 30˚ north, the parallel which runs through the area of Cairo, ancient Memphis, Giza, and Iunu (Gautschy, 2012). A rough rule of thumb is that each degree latitude counts for one-day difference with respect to both cosmic settings and heliacal risings. In other words, the further south an observer is positioned on the northern hemisphere, the shorter the invisibility period ( Figure  6 and Figure 7). As a result, Sirius sets one day later and heliacally rises one day earlier summing up to about 2 days per each one-degree latitude as the star's visible arcuate path across the Meridian steepens and lengthens. The exact dates for various locations and time frames in Egypt can be astronomically computed and have been published (Gautschy, 2012). These dates are theoretical assuming ideal visibility. Variation would have occurred due to cloud cover and air moisture which have been reconstructed for ancient dates (Schaefer, 2000) 14 . What ancient Egyptian astronomer-priests saw and what was possible were therefore close, but likely not always exact matches with computed dates unless averaged over years.
Sirius' cosmic settings have no clearly identifiable metaphorical counterpart to wp-rnpt in the extant corpus of discovered scripture, except maybe the gouging by Set of Horus' left eye, but there are hints in the Pyramid Texts where one would expect them: On the west wall of the sarcophagus chamber. "The toothless calf" of Recitation 1 in Unas' tomb could be the "head-first" cosmically setting Canis Major without its "tooth", i.e. Sopdu, already "swallowed up by Earth" below the southwest horizon. In Recitation 2, "the head of the great black bull has been severed" could plausibly mean the likewise cosmically setting Taurus constellation in Canis Major's vicinity (Allen, 2005: 17; Allen's take differs based on endnote 6).
New Kingdom records show that the death of a Horus king initiated a 70-day period (Smith, 2009, e.g Deduced by winding the clock back by two Sothic cycles from a historically confirmed heliacal rising of Sirius on July 21, 140 C.E. recorded by the Roman Censorinus, astronomically corrected to July 20, 139 C.E. A Sothic cycle is 1460 Julian years or 1461 Egyptian civil year. Schaefer formally computed the Sothic cycle to be 1457 years ±20 (Schaefer, 2000). 14 Schaefer has calculated an extinction coefficient of 0.35 for Egypt (Schaefer, 2000). Note that Earth rotates towards the sun from west to east, i.e. left to right from this perspective. Earth's nocturnal half shown illuminated for illustration only. Graphic by Anthony Adomaitis, Asturmas Studios. Figure 7. The alignment at dusk before a cosmic setting as seen from Giza or at the equator. The steeper horizon at the equator blocks the sun to the west after sunset and the star can still be seen in the southwest. At higher latitudes, e.g. Giza, the star disappears below the horizon before the sun sets. This initiates the invisibility period which ends when the star rises heliacally ( Figure 6). Note that Earth rotates away from the sun in this perspective, i.e. from west to east towards the right. Earth's nocturnal half shown illuminated for illustration only. Graphic by Anthony Adomaitis, Asturmas Studios. Since you are the one who prevents them from turning around from within your arms, you should go forth toward them, ba as one fully born, sharp as one fully born, in your identity of Sopdu, your flail in your (one) arm, your scepter behind your (other) arm, and those of the nighttime shall fall on their face to you, and the Imperishable Stars shall kneel to you.
Therefore, the cosmic setting of Sirius in the west was likely seen as the sym-  (Schoch & Bauval, 2017) especially in alignments and orientations relative to the day and night sky as it varied with astronomic epochs due to precession. This preoccupation with alignments of megalithic structures had its roots in much more ancient practices (Bauval & Brophy, 2013). Both solar (stone circle gates) and stellar (megalithic lines) themes can be identified at Nabta Playa and the common thread seems to be an awareness of several celestial cycles of time, both short, long, and very long, apparently motivated by the cycles of rain.
Before dynastic Egyptians wrote symbols with mallets, chisels, reeds and inkwells, their predynastic ancestors recorded what they saw in the sky by building stone monuments and this architectural culture did not stop when civilization began.
The astronomic cycle most likely described by the Pyramid Texts of the late Fifth and Sixth Dynasty is the daily solar cycle according to experts (Allen, 2005). To the ancient Egyptians, the Sun died each evening in the west, resurrected in the fifth hour of the night within the mythical tomb (or the body) of Osiris' and was reborn at dawn in the east through the birth canal of Osiris' mother, the sky goddess Nut. The dead king's soul was to retrace this journey and follow the Sun to become an immortalized spirit. The lay-out of the pyramid chambers and corridors into which the texts were inscribed mirror this theme, but there is one important caveat the experts admit: The texts point to an exit for the king's spirit through the ascending passage towards north, not through the tripartite serdab, symbolizing Nut's birth canal, towards east (Allen, 2005).
A north exit means even the ancient Egyptians of the late Pyramid Age believed that the king's soul ultimately went to the northern stars and not to the rising Sun no matter "our" interpretations of the Pyramid Texts. The most striking example of this ultimate destiny desired are the four passages emanating from the King and Queen Chambers of the Great Pyramid (Bauval & Gilbert, 1994). Unlike the Sun, Moon, and most stars, the circumpolar stars, with one important possible exception (see below), never "died" on or resurrected from below the horizon at dawn. They never disappeared from the night sky throughout the year. If they suddenly had disappeared, as a result of precession for example, religious turbulence could have materialized.
A north exit also means that the Pyramid Texts probably do not only refer to the daily solar cycle, but also to longer movements including those of the stars, the Moon and maybe even planets. We cannot rule this out a priori even based on the most recent translations. Bauval (in Schoch & Bauval, 2017: 222-223 15 . In other words, the mythical journey described in this spell is not the daily movement of the Sun across the sunlit sky, but an eastward migration across the map of stars, whose immediate westward "rear view" is observable each day in the predawn hour just before sunrise. Demonstrably, that journey is 70 days long (Schoch & Bauval, 2017: 221-224).
In my opinion, Bauval is justified in his interpretation of Recitation 173, because its astronomic context is established at the end of Recitation 172, where a compelling allusion to the Milky Way is made (Recitation 172, Allen, 2005: 48. square brackets indicate omitted segments not relevant). According to James P. Allen's translation: There is no one who requires his fare for the great ferry; there is no one who bars him from the White Palace of the great ones at the Beaten Path of Stars-for look, Unis has reached the sky's height. Unis has seen his cobra in the Nightboat: Unis is the one who rows in it. He has recognized the uraeus in the Dayboat: Unis is the one who bails it. The populace have witnessed him. The sky's hail-clouds have taken him that they might elevate Unis to the Sun.
The concurrence to which Bauval refers unfolded around 2300 B.C.E. when the Pyramid Texts were being inscribed into the pyramids of the Fifth and Sixth Dynasty. Recitation 172 even hints that this was an observable phenomenon ("The populace have witnessed him"). Therefore, this journey across the Milky Way cannot possibly describe an imagined path through the duat lasting only one night. This puts into doubt the notion that the Pyramid Texts should be viewed in one dimension along an only solar theme, even if this theme seems to have dominated beliefs in the late phase of the Old Kingdom.
Further evidence of observable movements across a stellar map can be found in Teti I's Recitation 19 (Allen, 2005: 69), where reference is made to the crossing of "Kenmut". Kenmut was the name of a decan, a group of stars which includes the constellation Leo. The crossing of a decan took the Sun, on average, 10 days 16 . I think the best explanation, namely the one provided by Robert Bauval, is that some of the cycles described in the Pyramid Texts describe the apparent movements of the Sun relative to the map of the stars. These cycles last longer than one day. But even apparent trans-horizontal movements of certain To clarify, the visible part of the Milky Way just before dawn, gradually shifts eastward revealing progressively more of itself to an observer eventually followed by the stars of the ecliptic to the east of the Milky Way, e.g. those is Gemini and Cancer, until Regulus in Leo is reached after 70 days. Around 2300 B.C.E, this day was also the once-in-a-year day of helical risings of Sirius. 16 And one year to cross all 36 decans. Note the mention of a decan proves they were known then. transitions and half-way points: At dawn on this day, the Orion (sah) constellation sets in the west and "suddenly" appears again in the east at dusk on the next day. These are not cosmic settings or helical risings. The sight of this bewildering west-east "cosmic leap" inspired a ritualistic procession of Sokar's Henu barque "around" an unknown building and this ancient ritual goes back to early dynastic times proving its importance (Gaballa & Kitchen, 1969).
A spiritual north exit implied by the Pyramid Texts also comports well with the documented alignments of man-made structures over thousands of years at Nabta Playa and Saqqara (Bauval & Brophy, 2013), and some of the cultic pyramids (Belmonte et al., 2005) towards the circumpolar regions particularly the constellation Ursa Major. Another example is the statue of Djoser inside a serdab on the north side of the Step Pyramid which seems to stare through a small hole oriented to the star Alkaid in Ursa Major (Bauval & Brophy, 2013).
The overarching theme of the pyramid texts may well be solar, but the stellar theme still reverberates hinting that the solar theme was either added de novo or revived from primordial worship, but did not replace it. In fact, a discontinuous, added emphasis on Re is supported by evidence of a sudden religious shift at the time of Khufu and his heirs during a time which preceded the first known Pyramid Texts (Unas) by about two centuries. Religious Shift: This shift during the Fourth Dynasty at the peak of the Pyramid Age has been proposed by Mark Lehner and Zahi Hawass based on archaeological evidence (Hawass, 1996: 391-394) and by American Egyptologist James Henry Breasted (Breasted, 1912: 101-102) based on his reading of the Pyramid Texts. The archaeological evidence 17 , several unfinished subterranean passages and corridors, is interpreted to mean that Khufu's (a.k.a Khnum-Khuf) planners abandoned construction of a fourth subsidiary pyramid in the east field north of the future causeway and one possible pyramid and a tomb, G1-X and G-7000x on the other side to the south in his 5th regnal year. Instead, according to Hawass, Khufu's mortuary temple which faced east towards the sunrise was widened and the causeway was built over the "trial passages", also towards east 18 . This change in plans, according to Hawass, correlated with Khufu's embrace of "Re", presumably attenuating his worship of Khnum. Khufu's heirs, beginning with Djedefre, added the suffix "Re" to their throne names, the "Sa-Re" nomen.
A total solar eclipse over Memphis (Seyfzadeh, pending publication; a draft can be accessed at the author's Academia.edu profile), may have precipitated this shift.
Bauval, countering Breasted, has argued that the solar theme in the Pyramid Texts is more ancient than the stellar theme evidenced by an astronomically prehistoric alignment of an older Sphinx and causeway, later used by Khafre,17 Originally, Vyse and Perring who discovered the "trial passages" proposed that they were meant for an additional queen pyramid. Petrie noted their similarity to those in the Great Pyramid. Lehner disputed that they were only trials based on ancient repair work he observed. 18 Selim Hassan (Hassan, 1960: 20) (Bauval & Brophy, 2013). This stellar theme may have dominated Egyptian Religion until the Fourth Dynasty when shifting religious sentiment once again looked to Re.
No major religious shift occurs without resistance, especially from conservative elements among the guardians of the faith, the priesthood. Therefore, it is possible that if such elements were influential and had input into pyramid design that themes of the previously prevailing star cult and themes of the presumably even older cosmogony of the Ogdoad, a theology formulated in the city of Thoth Hermopolis magna ("Khemenu"), became embedded along with the new Sun cult theme dedicated to Re. This may explain why the star cult maintained its mythical influence on the Pyramid Texts.
Descent and Ascent: After his heavenly fall to death in the west, Horus was believed to have embarked on a journey through the underworld and was resurrected midway through the life-giving power of Osiris (who then reveals as Sokar) and his mother Isis. Thus reborn, he would complete his journey and resurface on wp-rnpt 70 days later.
This journey could be divided into two half-periods, descent and ascent, each 35-days long and these two periods seemed to have been enshrined in the mummification process attested by the first tale of Setna Khamwese and other late period and Greco-Roman references (Burton, 1972: 265-266): 35 days of preparing the body (dissection, drying, embalming), and 35 days to wrap it in linens with ceremonies on day 4 and 16; coffining and entombing on day 70. Variations of the overall length can partly be explained with the actual variations of observable invisibility periods of Sirius, but 70 days appeared to be important.
It could be argued that until the mummification technique sufficiently advanced in the New Kingdom, the Egyptians did not attribute importance to two 35-day sub-periods, even if the total (70 days) had long been recognized as a sacred period. Nevertheless, the elements and ingredients of mummification, i.e.
the washing after disemboweling 19 to lighten the load on the heart ("outflow" of that which makes the heart weary), incensing, desiccation and disinfection, Even though this temple dates to the Greco-Roman period, the meaning of this entry has timeless astronomic roots. At the half-way point between a cosmic setting of Sirius and its helical rising, one observes the entire constellation Taurus above the predawn sky concurrent with Orion's helical rising. There is evidence to suggest that Khnum, at times in Egypt's history, was associated with this constellation (Seyfzadeh, pending publication) 21 . In other words, Re "speaks" these words to Khnum-Re, possibly seen as the constellation we now call Taurus. Re's own birth, 35 days ahead of Horus/Sopdu, on this date reveals his union with Osiris/Sah. This is the same duality found in the much older Pyramid Texts (Allen, 2005: 7). It appears that astronomic concurrences inspired these dual identities described in religious myth.
Another example of specially recognized half-way points in a celestial cycle are the 12 groups of 4 deities in "the list of 59 deities" marking the four main Moon phases of the twelve-month lunar year (Parker, 1950).
Horus Duality: The journey from one part of the horizon, through the duat, to the other may have led to Horus' other name in the Pyramid Texts: Hor-akhty, Horus of the two horizons, later Re-Horakhty once explicitly associated with the Sun, which likewise passes two horizons. The names Horemakhet and Horakhty were also attributed to the Great Sphinx as recorded on the Dream Stele. Bauval argues the two names suggest distinct identities for two statues shown on the stele, not one entity shown twice for symmetry (Schoch & Bauval, 2017: 174-180). Horakhty in the east was the celestial starry image of the physical Sphinx, Horemakhet in the west. That image was the constellation Leo (Schoch & Bauval, 2017: 152-153).
This insight provides an important clue as to how the resurrection cycle described by the Pyramid Texts should be interpreted. The association by name between lion and falcon gods, both worshiped and feared as Earth-bound emissaries of Re, hint at dual origins, a solar and a stellar cult, of the god Horakhty who may have been a stellar entity associated with Sopdu from predynastic times through the first half of the Old Kingdom. Later, when Re (re)-emerged as the chief deity, the Horus cult became merged with the Sun cult reflected in the Pyramid Texts by the dual nature of Horus as Sopdu, i.e. hrw spd, and Horus as Re, i.e. Horakhty. This merging can be explained astronomically as concurrences which, in turn, may explain the dual, and confusing iconography and names.
The politically wise move in projecting a new religious theme is not to abolish 21 For example, the extinct ram species Ovis longipes and hymns devoted to Amun at the Temple of the Plow at the Kharga Oasis (Seyfzadeh, pending publication; a draft can be accessed at the author's Academia.edu profile). Latitude and Length: In astronomic terms, Horus' journey spans over an arc distance at the horizon (see Figure 1)  period from an observatory at Elephantine Island (~24˚ north), they would have measured 58 -59 days. This 11-day difference can be explained with celestial mechanics and Earth's geometry (Ingham, 1969) The number 11, for example, features prominently in the interior design of the Great Pyramid (Gantenbrink, 1999; Robert Bauval, personal communication) as the basic grid unit.
Geometrically 11/69-70, closely approximates how the radius r of a circle relates to its circumference C and 22/69-70 is as any diameter D is to C (Figure 8

Discussion
What was the idea behind the design of the Pyramid on Elephantine Island? It At Yebu, I propose the architect wanted to numerically record the timing of Horus' journey through the duat. Step dimensions measured in cubits represented days of Sopdu's invisibility at Iunu, Yebu, and the difference between them. The southeast edge was to mark wp-rnpt. This orientation "time-stamped" the pyramid relative to wp-rnpt's horizon drift with precession. Six similar pyramids of this cultic variety were erected along the Nile up to the Faiyum marking various celestial targets. The last, 10 km west of Meydum and headed due north (Belmonte et al., 2005), has a longer base at 50 cubits but in Swelim's reconstruction layer 1's base is 35 cubits and the base of the core is 22 cubits, both preserved dimensions in the other six MSPs (Swelim, 2017).  If the builders recognized this geometry, the significance of the 22-cubit base would have been the ostensibly straight path along the horizon from west to southeast which corresponded to the curved paths taken by Sopdu/Horus either witnessed during its visible period or imagined after its cosmic setting. Wittingly or not, both relationships, radius to circle (11/70) and diameter to circle (22/70), are embedded in the Yebu Pyramid's three step bases, if that is how the pyramid was built. If intended, the numerical link between myth and geometry may have inspired the architectural insight that the curved paths of the gods can be imitated with straight lines over corners in the shapes of true pyramids on the ground, a major paradigm shift.

If we convert meters into royal Egyptian cubits, Dreyer & Kaiser
The same link between the golden Horus myth and the geometry of its celestial movements might be seen in the "basket symbol", (Gardiner V30, nb) used by the Egyptians as an ideogram for "lord/master" and "gold". The written symbol of 32 nd century B.C.E. ruler Iry-Hor ( Figure 11) shows a falcon sitting on the base of a half-circle in a manner not unlike that shown in the later serekhs used as early as by next ruler Ka. On sealings, also attributed to Iry-Hor, the  Figure 11. Iry-Hor's title "Lord/Golden Horus" engraved into a vessel from his tomb B1/2 at Abydos, in Upper Egypt. Depicted is a falcon sitting on a half-circle. Ashmolean falcon is instead shown holding the mouth symbol "r" suggesting this written version spelled the name itself. The half-circle probably had another meaning related to kingship. In later spellings of the sound "Iry", the words jryujkhut mean horizon dwellers and jryjui is a title of Horus, "keeper of two gates" (Budge, 1920: 70). Therefore, the Horus symbol of Iry-Hor, its geometric symbolism that is, comports well with an attribute of Sopdu, i.e. the semi-circular shape of both its visible celestial and imagined duat paths relative to the straight horizon, later represented as a palace façade with gate and the labrys symbol. Of course, the Horus symbol may have originated from the sight of a falcon sitting on a weaved basket or from some other inspiration, but the paths of Sopdu is one way to explain it.
Besides at Yebu, there are six other cultic pyramids. They are in Egypt at Seila, Hebenu, Sinki, Nubt, El Kula, and El Ghenimiyain that order from the Faiyum to Yebu. As best as can be reconstructed, the latter five had heights and base lengths like Yebu (Swelim, 2017), but their orientations vary (Belmonte et al., 2005). Only the MSP at Seila is oriented to the cardinal directions, apparently the first pyramid ever. Some others seem to target the circumpolar region as did the Step Pyramid of Djoser (Bauval & Brophy, 2013) suggesting a common and continuous theme during the Third and early Forth Dynasty. Belmonte et al. (2005)  Hemiunu and Nefermaat, he was "The Greatest of the House of Thoth". The building sequence of pyramids between Seila and Khafre extends from the two step-pyramid cores E1 and E2 of the Meydum Pyramid, the Bent Pyramid (Dashur-south), the Red Pyramid (Dashur-north), and the casing of the Meydum Pyramid (E3), all under Sneferu, and then to the Great Pyramid under Khufu 26 . It is possible that these pyramids were all designed by a father-son team of architect-priests from the "House of Thoth", Nefermaat and Hemiunu. Belmonte et al. speculate that the two Dashur pyramids were built to represent the crowns of Upper and Lower Egypt (Belmonte & Magli, 2015). According to this idea, the first true pyramid ever built was to be a symbol of Upper Egypt, and so it is in this monument, the Bent Pyramid, where familiar dimensions which related to the country's south should be apparent.
The Bent Pyramid's design started on a base tier 300-cubits wide later lengthened to 360 (Stadelmann, 1997). At a height of 90 cubits the side-slope was narrowed on a platform base of 232 -234 cubits and the pyramid rose in this second tier for another 110 cubits for a total height of 200. Debate persists as to why these changes were made, but the second tier's core design features two elemental dimensions scaled-up by a factor of four to create the first ever true pyramid in Egypt: The half-period of Sopdu's annual invisibility at Yebu, 23 i.e. 12-16-20 palms diagonally across left and right from the center of the granite box to carve out the interior. Two halves 13 × 14 × 15 palms for the exterior. This is a very close match to Petrie's measured values.  Figure 12). The latter is simply the number of days it takes the Moon to return to a certain star or group of stars after one revolution around Earth within the resolution of an observer's eye 27 . Another significance of the base at 116/117 is the timing of the Sokar festival's date 116 days after wp-rnpt. At Dashur-north, the 420-cubit base of the Red Pyramid incorporates the half-period of Sopdu's annual invisibility at Iunu, 35 days, scaled-up by a factor of 12 (or by 6 to yield the half-base). This factor itself carries relevance to heliacal risings because they occur in general when a new decan appears in the 12 th hour of the night at dawn (Krauss in Hornung et al., 2006: 447). The appearance of this factor "12" in the design of the Red Pyramid is, tentatively, new evidence that decans had already been developed in the Old Kingdom long before lids. Furthermore, the Egyptian name for the Red Pyramid "Kha Sneferu", "Sneferu Shines" in the literal sense of "Sneferu erscheint (German: appears)" (Belmonte & Magli, 2015) also alludes to wp-rnpt. The word "Kha" spelled with Gardiner N28 is a phonetic word play insinuating the lotus flower (Gardiner M12), a symbol of the Ogdoad. The water lily Nymphaea caerulea rises from under the water surface over days and then opens its calyx in the morning. The metaphor is a perfect description of a heliacal rising. The English "shines", incompletely captures this meaning and neither does "appears". "Kha" captured both in one.
What height was intended for the Red Pyramid is unclear because the side-slope angles of the four sides are not even and the actual height deviates from the probably intended seqed of 7½ palms per cubit (Stadelmann, 1997)  Khufu's Great Pyramid (G1) was built on the Giza plateau after the Pyramid of Meydum was cased. Its theoretical height, if fully capped, would have been 280 cubits and its base, fully cased, can be reconstructed at 440 cubits (Petrie & Hawass, 1990: 11-13). Various authors (e.g. Napoleon's savants, Petrie, Lepre, Pochan, Isler and J. P. Bauval) have observed that the center of the currently exposed core base is slightly indented 29 visually creating an 8-sided pyramid in certain lights. Whether this concavity was an intended design feature, its purpose, and whether the outer casing was also indented is unknown.
These features describe the exterior of the Great Pyramid. If one divides the number of days of Sopdu's descent or ascent half-period as seen from Yebu, 29 days, into a civic Egyptian year of 365 days, one obtains 12 4/7, which is a factor any Egyptian architect would have understood (12 cubits 4 palms) and which would symbolize the year in terms of "Yebu duat months", for example. Multiplied by either 35 or 22 cubits this factor yields 440 and 277 cubits, respectively ( Figure 13). The former matches G1's base and the latter is 3 cubits shy of the theoretical summit on which a 3 cubit-tall, 4 5/7 cubits-wide pyramidion would have fit closely matching that found by Stadelmann attributed to the Red Pyramid 28 29½ days is the average length of a synodic month and it is known that this period mattered in early dynastic times before the civil calendar (Parker, 1950). 29 Petrie estimated it to be 1/2 to 1˚. For a history of the observation and its interpretation see Larry Orcutt's web-page at http://www.catchpenny.org/concave.html.  Hawass 1990: 93) in terms of the geometric relationship between a diameter and its circle and the meaning ancient Egyptians may have attributed to that in terms of the stellar Horus. Since none of the MSP's are fully standing, however, and since only the bases at ground level are still measurable, this putative design theme remains difficult to prove, because it relies on only one of three proposed reconstructions possible (Swelim, 2017;Dreyer & Kaiser, 1980). However, there is another, better model which only relies on the solidly confirmed base length of 35 cubits found in all MSPs and deepens the cultural context which may have mattered with respect to scaling-up: The numbers "5" and "8". I previously published evidence that the exterior design of the Great Pyramid, its dimensions and angle, can be plausibly explained in astronomic terms as DOI: 10.4236/ad.2017.54012 214 Archaeological Discovery a natural calendar which intertwines the invisibility period of Sirius at Iunu and the sidereal orbital period of the Moon 30 whose measurement was within easy reach of Old Kingdom astronomers (Seyfzadeh, 2017). In the book, I also explain how a model pyramid incorporating these features could have been scaled up to design both the Pyramid of Meydum and the Great Pyramid.
This model pyramid ( Figure 14) would have had a base of 55 palms (or cubits whichever), a half-base of 27½ and a height of 35. The sidereal lunar period is represented by the half-base in this model and the height represents one half of Sirius' invisibility period as observed from Iunu. These two dimensions alone explain the Kepler Triangle at the core of this pyramid. Any pyramid erected over a Kepler Triangle has a side-slope of 51˚50' and twice its base over its height i.e. a seqed of 5½ palms run per cubit rise. The core triangle (dashes) which defines this specific design is a Kepler Triangle in which the ratio of the hypotenuse to its short leg approximates the golden ratio (1.618…). Graphic by Anthony Adomaitis, Asturmas Studios. 30 The modern measurement is 27.3216 days. The natural period commonly believed to be the basis of the Egyptian lunar calendar has always been the synodic month. Yet, Gardiner N11's dual meaning of month/Moon and palm (shsep) in a 7-palm royal cubit suggests a 28-day month was observed at one time and that this cubit was originally based on it. Archaeological Discovery approaches π. This means neither angle, nor Golden Ratio or π need to have been consciously chosen, but their recognition was certainly within reach as I mentioned in the geometry section above. They are incidental to the two input dimension. Therefore, their occurrence in a Kepler Triangle pyramid may not be premeditated, but is also not by random chance, i.e. not coincidental.
The Meydum pyramid was begun as a step-pyramid and later completed as a smooth, cased pyramid (Lehner, 1997)  Triangle, defined as a right triangle with edges proportional to 1:√φ:φ and whose major angle at the short leg is 51˚50' (51.83˚, a seqed of 5½ palms per cubit). It can be concluded that the exterior of the Meydum pyramid, when finally fully cased for no apparent reason, was a scaled-down version of the Great Pyramid by a factor of 5 to 8. In fact, this enigmatic effort now makes sense.
I think relating these two periods is a plausible and context-appropriate way to explain the occurrence of the Kepler Triangle (Taylor, 1859;Seyfzadeh, 2017) in the design core of both pyramids. Other plausible explanations have been offered: 1) There was only a limited number of seqeds to choose from (Greenberg, 2000) and 2) 5½ palms per cubit may have been the practical limit in terms of height in a race to build the tallest pyramid. A clever explanation was also proposed by Christopher Bartlett (2014) who proposed that the angle was based on human anatomy. The astronomical "angle" however provides a deeper religious context in my opinion and the same argument applies against the other two theories. Religious context motivating intent should not be ruled out as implausible due to the modern age tacit bias that practical considerations better explain ancient rationales.
Since the common design-theme I propose is preserved in two consecutively built pyramids of different, absolute dimensions, we can speculate that Hemiunu used a scaled-down model ( Figure 14). It is even possible that Hemiunu himself This, too, takes us to Thoth, the Egyptian Ibis god associated with the sciences, with writing, and with the Moon. Thoth was worshiped at the 15th nome ("Wenet") of Upper Egypt in a city now called El-Ashmunein, Egypt (Hermopolis magna), then "Khemenu" (City of the Eight). It was the spiritual center where the cosmogony of the Ogdoad ("The Eight") originated, the belief that the world was created from the primordial chaos of the four concepts of water, darkness, invisibility, and eternity symbolized by 4 divine couples of eight gods, male frogs and female snakes, who brought into existence from cosmic chaos a lotus flower (the blue Egyptian water lily Nymphaea caerulea) from whose calyx the Sun emerged in the moment of creation. The Egyptian Lotus typically produces a calyx made up of rows of eight petals. It slowly rises to the water surface over days' time and then opens its calyx for a few hours after sunrise. This shining manifestation of Re from the Lotus was called "kha". The concept of a group of eight gods pervades Egyptian history and several renditions are documented (Wilkinson, 2003: 77-78 (Bauval, 2016) it. It has been roughly measured on-site to be about three feet (Alan Green, personal communication) and more accurately at 0.92 m by Pochan (1971). These values agree with Petrie's lower estimate of the angle the indent produces at the pyramid corners where the outer core limit and the casing perimeter would have met, i.e. ~1/2˚.
Remarkably, the identical length, 0.9215 meters, can be obtained by taking 8 ("Khemenu") × 1/1000 ("Re-Kha"; Egyptian unit fractions were expressed with the mouth symbol Re over some denominator; kha also means "thousand") of the The sum of inner-and outermost layer couples 1+2, and 7+8 is 648 cubits, 32 220 cubits × 8/1000 × π/6 = 0.9215338 m. The indent is exactly 1/1000 of the perimeter, 1.76 cubits. 33 Officially interpreted to mean "signs" but "gods" (i.e. "neteru") is in fact the literal translation. This peculiar association between the numbers 19/38 and the Ogdoad has a conspicuous precedence at Saqqara in Imhotep's design of the hypostyle colonnade which leads into Djoser's Step-Pyramid complex. Its entry is lined with 12 i.e. 2584 days. The middle segment of 8 pairs of pillars encodes the conversion factor between these two lunar periods, 19/51, i.e. 136/408 × 76/68. Finally, the civil year of 365 days relates to these two lunar cycles by 136, i.e. 19/51 × 365, the number of flutes in the first half of segment 2. The overarching theme, it appears, was an attempt to make sense of several astronomic cycles and how they related to each other.
The numbers used by Imhotep and Nefermaat at Saqqara and Meydum therefore suggest that several super-cycles of the Sun and the Moon were also then known in addition to the Sothic cycle previously noted by Bauval and Brophy (2013). If Nefermaat, like Imhotep before him, indeed intended this playful display of numerical astronomy, his epitaph, in more ways than one, rang true then as it does now: The essence of the gods of the Ogdoad and Thoth he numerically created inside the Meydum Pyramid remained un-erased for Petrie to measure them. As shown earlier, Hemiunu apparently employed an equally DOI: 10.4236/ad.2017.54012 220 Archaeological Discovery clever scheme to hide the numerical spirit of the Ogdoad as eight half-faces in the Great Pyramid's core masonry by slightly indenting the bases at the center by an unmistakable fraction.
One other pyramid, possibly designed by Ankhaf after Khufu and before Khafre came to power, deserves mention: The Pyramid of Djedefre, Khufu's son. Djedefre honored his father post-mortem with a pit for Khufu's boat south of the Great Pyramid, presumably, to help him pass through the underworld at night and resurrect with Re. A distinctive feature of Djedefre's pyramid (and of Lepsius XIII, possibly belonging to Djedefre's son Baka) is a steep ramp leading into a T-shaped subterranean pit cut deep into the bedrock where the sarcophagus chamber was to be placed r essentially recreating the underworld. Above this basement, the pyramid was 106.2 m wide (203 cubits; half-base 101.5 cubits) and 57 -67 m tall (109 -128 cubits) with a probable seqed of 6¼ (48˚) -5½ (52˚) palms-run per cubit-rise (Lehner, 1997: 120). Due to extensive destruction, the pyramid's height and angle can only be narrowed down to a close range, but one good fit for these values is a 3.5x expansion of a model pyramid with a half-base of 29 cubits (half-period in days to wp-rnpt at Yebu) and a height of 35 cubits (half-period in days to wp-rnpt at Iunu) producing a seqed of 5¾ palms per cubit (50.36˚) based on the same celestial theme proposed here to have inspired the design of the Pyramid on Elephantine Island. The significance of 3.5 is that 35 × "1/10" (pronounced "Re-Medju") might be a phonetic play on "Re-Medjut", i.e. "Sun-Cave".

Conclusion
In summary, I have presented evidence that the dimensions of the minor step pyramid on Elephantine Island mattered besides its orientation to rising Sirius.
When keeping track of time and Nile began to fail due to calendar drift and precession, Third Dynasty astronomers may have turned their focus on the yearly invisibility period of the stellar Horus and recorded the days as cubits in the step design. From this crucial transition at Yebu, the Pyramid Age advanced from step-pyramids to true pyramids which gave their architects an added medium to express a numerical message. Once the stellar cycle of the Moon was observed and measured, an elemental model pyramid of two intertwining sidereal cycles was devised, one represented in the model's height and one in its base.
Thus, the outer dimensions of smoothly cased pyramids encoded a new concept of orderly time and four true pyramids expressed it. Further imbued into their architecture were the cultic numbers of Khemenu, five and eight, used to scale-up the elemental model into the designs of the Pyramid at Meydum and the Great Pyramid, respectively. This was to become the unmistakable imprint of a cosmogony whose days were numbered when attention shifted (back) to that of Iunu.
While the astronomic relationship between the period of Sirius' invisibility and the lunar orbit, when viewed within the theological context of the Ogdoad's demystify those related to its exterior design. This includes at least some of the geometric allusions to geodetic quantities noted by Great Pyramid researchers who tacitly assume that perimeter and angle were premeditated design choices to make these allusions, a notion typically dismissed by traditional Egyptologists, who believe they are coincidental.
An alternative explanation to both notions and a possible bridge between them is offered in this paper; to wit, the perimeter is incidental to a scaled-up premeditated elemental base of 27½ cubits and the angle is incidental to the base's relationship with the pyramid's scaled-up height of 35 cubits, both of which stem from astronomical periods nevertheless. In other words, the perimeter and side-slope angle of the Great Pyramid exist by necessity of these other choices. They were neither randomly nor intentionally chosen and the astronomic connections so made, if unwittingly, were real by virtue of how planetary motion became an incidental measure of planetary geometry relative to that of the Moon.
The findings presented in this paper offer a plausible explanation for a pyramid code, if ancient architects indeed devised it. They squarely place these otherwise bewildering monuments into an Old Kingdom cultural context and show-case the genius of ancient Egyptians who evidently observed the sky, interpreted what they saw within their religious view of the world, and quantitatively embedded these insights and inspirations as sacred, maybe secret, monumental messages.

Dedication
To the People of Egypt.